Patent application number | Description | Published |
20110262767 | SURFACE HARDENED SUBSTRATE AND METHOD MAKING SAME - A surface hardened substrate includes a base, a transition layer disposed on a surface of the base, and a hard layer disposed on the transition layer. The transition layer includes at least two kinds of transition metals. The hard layer includes an alloy and a nonmetal. The alloy includes the at least two kinds of transition metals. | 10-27-2011 |
20110262769 | SURFACE HARDENED SUBSTRATE AND METHOD MAKING SAME - A surface hardened substrate includes a base, a transition layer disposed on a surface of the base, and a hard layer disposed on the transition layer. The transition layer includes at least two kinds of transition metals. The hard layer includes a composite that comprises the at least two kinds of transition metals and a nonmetal. | 10-27-2011 |
20110305893 | ALUMINUM ALLOY-AND-RESIN COMPOSITE AND METHOD FOR MAKING THE SAME - An aluminum alloy-and-resin composite includes an aluminum alloy substrate and resin composition formed on the substrate. The substrate is subjected to electrochemically etched and formed with nano-pores on its surface. The resin composition integrally couples to the surface of the aluminum alloy substrate by filling the nano-pores. The resin composition contains crystalline thermoplastic synthetic resins. | 12-15-2011 |
20110318558 | COATING, ARTICLE COATED WITH COATING, AND METHOD FOR MANUFACTURING ARTICLE - A coating includes a bonding layer comprised of TiNbN, a transition layer comprised of TiSiNbN formed on the bonding layer, and an outmost layer comprised of TiSiNbN formed on the transition layer. The percentage of atomics Ti and Nb in the outmost layer are respectively lower than the percentage of atomics Ti and Nb in the transition layer, and the percentage of atomic Si in the outmost layer are higher than the percentage of atomic Si in the transition layer. | 12-29-2011 |
20120009398 | HOUSING AND METHOD FOR MANUFACTURING HOUSING - A housing includes a substrate; a corrosion resistance layer deposited on the substrate; a bonding layer deposited on the corrosion resistance layer; and an abrasion resistance layer deposited on the bonding layer | 01-12-2012 |
20120018296 | CONTINUOUS VACUUM SPUTTERING METHOD - A continuous vacuum sputtering method includes the steps of providing a substrate; providing a continuous vacuum sputtering machine comprising a depositing chamber. The depositing chamber comprising at least one vacuum chamber, each vacuum chamber having a cathodic arc emitting source located therein; the substrate being loaded in the continuous vacuum sputtering machine; depositing a coating on the substrate by cathodic arc deposition using the cathodic arc emitting source. | 01-26-2012 |
20120018340 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing is provided. The device housing includes a substrate, a silicon dioxide film formed on the substrate, and a zinc oxide film formed on the silicon dioxide film. The silicon dioxide film has micrometer sized structures. The zinc oxide film has nanometer sized structures. A method for making the device housing is also described there. | 01-26-2012 |
20120021210 | ARTICLE AND METHOD FOR MANUFACTURING SAME - A article made by vacuum deposition, includes a substrate; and a color layer deposited on the substrate, wherein the color layer has an L* value between about 75 to about 80, a a* value between about −5 to about −10, and a b* value between about 15 to about 20 in the CIE LAB color space. | 01-26-2012 |
20120021244 | PROCESS FOR JOINING STAINLESS STEEL PART AND ALUMINA CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a stainless steel part and a alumina ceramic part, comprising steps of: providing a metal part made of stainless steel, a ceramic part made of alumina ceramic, and a nickel foil; bring the metal part, ceramic part, and nickel foil into contact, with the nickel foil inserted between the metal part and ceramic part; applying a joining pressure of about 20˜60 MPa to the parts to be joined; and simultaneously applying a pulse electric current to the parts while the joining pressure is applied for heating up the parts to a joining temperature of about 950° C. to about 1150° C. at a rate of about 50˜300° C./min, maintaining the joining temperature for about 20˜40 minutes. | 01-26-2012 |
20120021245 | PROCESS FOR JOINING CARBON STEEL PART AND ZIRCONIA CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a carbon steel part and a zirconia ceramic part, comprising steps of: providing a metal part made of carbon steel, a ceramic part made of zirconia ceramic, and a titanium foil; bringing the metal part, ceramic part, and titanium foil into contact, with the titanium foil inserted between the metal part and ceramic part; applying a joining pressure of about 10˜50 MPa to the parts to be joined; and simultaneously applying a pulse electric current to the parts while the joining pressure is applied for heating up the parts to a joining temperature of about 800° C. to about 1100° C. at a rate of about 50˜600° C./min, maintaining the joining temperature for about 10˜50 minutes. | 01-26-2012 |
20120024699 | COMPOSITE TARGET MATERIAL AND METHOD FOR PRODUCING THE SAME - A composite target material includes titanium oxide in a range between about 50 wt % and about 85 wt % and the remaining comprising stannic oxide or aluminum oxide or a combination of stannic oxide and aluminum oxide. A method for manufacturing composite target material includes the steps of: providing a mixture made of titanium oxide power in a range between about 40 wt % and about 80 wt %, stannic oxide powder or aluminum oxide in a range between about 15 wt % and about 50 wt %, binder in a range between about 5 wt % and about 10 wt %; pressing the mixture to form a blank; sintering the blank; cooling the blank. | 02-02-2012 |
20120027968 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing is provided. The device housing includes a substrate, and an anti-fingerprint film formed on the substrate. The anti-fingerprint film is a metal-nitrogen-oxygen compound coating. A method for making the device housing is also described there. | 02-02-2012 |
20120028030 | COATED ARTICLE AND METHOD FOR MANUFACTURING SAME - A coated article includes a substrate, and a coating deposited on the substrate by magnetron sputtering. The coating includes micropores, and each micropore is sealed by a sealing element. | 02-02-2012 |
20120028072 | COATING, ARTICLE COATED WITH COATING, AND METHOD FOR MANUFACTURING ARTICLE - A coating includes a deposited layer. The deposited layer is a nickel-titanium carbonitride layer. | 02-02-2012 |
20120028074 | COATING, ARTICLE COATED WITH COATING, AND METHOD FOR MANUFACTURING ARTICLE - A coating includes a nano-composite base comprising a number of films, the films stacked together one after another. Each film includes a nickel-titanium carbonitride layer and a titanium carbonitride layer. | 02-02-2012 |
20120034438 | COATED ARTICLE AND METHOD FOR MANUFACTURING SAME - A coated article comprises a substrate; a bonding layer deposited on the substrate; and a composite layer deposited on the bonding layer. The composite layer includes an equal number of alternating chromium-nitride layers and aluminum-nitride layers. | 02-09-2012 |
20120034452 | ARTICLE AND METHOD FOR MANUFACTURING SAME - An article includes a substrate and a color layer deposited on the substrate. The color layer has an L* value between about 36 to about 48, an a* value between about 4 to about 5, and a b* value between about 2 to about 4 in the CIE L*a*b* color space. | 02-09-2012 |
20120034487 | COATING, ARTICLE COATED WITH COATING, AND METHOD FOR MANUFACTURING ARTICLE - A coating includes a nano-composite layer including an equal number of films. The films are stacked on top of each other one after another. Each film includes a zirconium-copper carbonitride layer and a zirconium carbonitride layer. | 02-09-2012 |
20120034489 | COATING, ARTICLE COATED WITH COATING, AND METHOD FOR MANUFACTURING ARTICLE - A coating includes a nano-composite layer including a plurality of films. The films are stacked together one after another. Each film includes a zirconium-copper carbonitride layer and a zirconium carbonitride layer. | 02-09-2012 |
20120040116 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing is provided. The device housing includes a substrate, and a photochromic coating formed on the substrate. The photochromic coating includes at least one of a silver chloride-cuprous chloride mixture, a silver bromide-cuprous bromide mixture, and a silver chloride-cuprous chloride-silver bromide-cuprous bromide mixture. A method for making the device housing is also described therein. | 02-16-2012 |
20120040163 | COATING, ARTICLE COATED WITH COATING, AND METHOD FOR MANUFACTURING ARTICLE - A coating includes a zirconium yttrium carbon-nitride layer including a first surface and an opposite second surface, the atomic carbon content and the atomic nitrogen content in the zirconium yttrium carbon-nitride layer gradually increasing from the first surface to the second surface. | 02-16-2012 |
20120042991 | PROCESS FOR SURFACE TREATING ALUMINUM OR ALUMINUM ALLOY AND HOUSING MADE BY SAME - A housing includes a substrate made of aluminum or aluminum alloy, an ion implantation layer formed on the substrate, and a vacuum coated layer formed on the ion implantation layer. The ion implantation layer is implanted with one or more ion species selected from the group consisting of nitrogen ion, oxygen ion, and boron ion and is substantially comprised of one or more selected from the group consisting of aluminum nitride, aluminum oxide, and aluminum boride. The implanted ions can improve the compactness of the ion implantation layer. Thus, the corrosion resistance of the housing can be improved. | 02-23-2012 |
20120043299 | METHOD FOR MANUFACTURING COMPOSITE OF METAL AND RESIN - A method for manufacturing a composite of metal and resin including following steps: providing a metal piece; cleaning the metal piece in a degreasing agent solution; etching the surface of the metal piece by focused ion beam to form a pattern of nanopores; inserting the metal piece into a mold and heating the metal piece to reach a temperature in a range of 100° C. to 350° C.; and injecting molten resin material on the metal piece. The resin material is combined with the metal piece when the resin material is cool. | 02-23-2012 |
20120043689 | METHOD FOR MANUFACTURING COMPOSITE OF METAL AND RESIN - A method for manufacturing a composite of metal and resin includes steps of: providing a metal piece; cleaning the metal piece in a degreasing agent solution; partially shielding the metal piece and remaining portions of the metal surface uncovered; blasting the metal piece with hard particles to form a plurality of micro pores in the uncovered portion; inserting the metal piece into a mold; injecting molten resin material on the metal piece, the resin material combined with the metal piece when the resin material is cool. | 02-23-2012 |
20120045614 | COATING, ARTICLE COATED WITH COATING, AND METHOD FOR MANUFACTURING ARTICLE - A coating includes an anti-fingerprint layer. The anti-fingerprint layer comprises tin dioxide-aluminum oxide, and defines a plurality of nano scale concavities therein. | 02-23-2012 |
20120045621 | COATING, ARTICLE COATED WITH COATING, AND METHOD FOR MANUFACTURING ARTICLE - A coating includes a anti-fingerprint layer. The anti-fingerprint layer comprises zinc oxide-aluminum oxide, the anti-fingerprint layer comprises a plurality of nano scale concavities therein. | 02-23-2012 |
20120045640 | ARTICLE AND METHOD FOR MANUFACTURING SAME - An article includes a substrate; and a color layer deposited on the substrate, wherein the color layer has an L* value between about 28 to about 32, an a* value between about −1 to about 1, and a b* value between about −1 to about 1 in the CIE L*a*b* color space. | 02-23-2012 |
20120045659 | PROCESS FOR SURFACE TREATING ALUMINUM OR ALUMINUM ALLOY AND ARTICLE MADE WITH SAME - An article, includes a substrate made of aluminum or aluminum alloy and a AlON coating formed on the substrate. The AlON coating comprises, between about 50% and about 80% of atomic Al; between about 15% and about 40% of atomic O; and between about 5% and about 10% atomic N. | 02-23-2012 |
20120055691 | HOUSING AND METHOD FOR MANUFACTURING HOUSING - A housing includes a substrate; an aluminum layer deposited on the substrate; and an oxygen ion implantation layer deposited on the aluminum layer. The oxygen ion implantation layer comprising saturated aluminum oxide. The saturated Al | 03-08-2012 |
20120058361 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing is provided. The device housing includes a substrate, a barrier layer formed on the substrate, an illuminating layer formed on the barrier layer, and a protective layer formed on the illuminating layer. The barrier layer is made of titanium. The illuminating layer is made of rare-earth aluminates. The protective layer is made of silica dioxide. A method for making the device housing is also described there. | 03-08-2012 |
20120062081 | HOUSING AND METHOD FOR MANUFACTURING HOUSING - A housing includes a substrate; an aluminum layer deposited on the substrate; and an ion implantation layer formed on the aluminum layer, the ion implantation layer comprising aluminum(II) oxide solid solution phase and aluminum oxide solid solution phase. The disclosure further includes a method for manufacturing the housing. The method includes the following steps: providing a substrate made of aluminum alloy; depositing an aluminum layer on the substrate, the aluminum layer is deposited on the substrate with an aluminum target by magnetron sputtering process; and forming an ion implantation layer on the aluminum layer, the ion implantation layer is formed on the aluminum layer by implanting ions of oxygen into the aluminum layer, and the ion implantation layer comprising aluminum(II) oxide solid solution phase and aluminum oxide solid solution phase. | 03-15-2012 |
20120064266 | HOUSING AND METHOD FOR MANUFACTURING HOUSING - A housing includes a substrate; and a corrosion resistance layer deposited on the substrate. The corrosion resistance layer is a cerium oxide doped silicon nitride layer. | 03-15-2012 |
20120064363 | COATED ARTICLE AND METHOD OF MAKING THE SAME - A coated article includes a substrate, a catalyst layer, a bonding layer and a hydrophobic layer. The catalyst layer made of tin is formed on the substrate. The bonding layer is formed on the catalyst layer, including titanium, tin, stannic oxide and titanium dioxide. The hydrophobic layer made of silicon-nitrogen is formed on the bonding layer. | 03-15-2012 |
20120064364 | COATED ARTICLE - A coated article includes a substrate, and a coating deposited on the substrate that comprises an equal number of alternating densification layers and corrosion resistance layers. The densification layers are made of tin or aluminum; the corrosion resistance layers are made of chromium, niobium, vanadium, zirconium, titanium, or manganese. | 03-15-2012 |
20120064366 | HOUSING AND METHOD FOR MANUFACTURING HOUSING - A housing includes a substrate, an aluminum layer deposited on the substrate, and an aluminum oxynitride layer deposited on the aluminum layer. The aluminum layer includes aluminum. The aluminum oxynitride layer includes aluminum, nitride, and oxygen. A method for manufacturing the housing comprises providing a substrate, depositing an aluminum layer on the substrate, and depositing an aluminum oxynitride layer on the aluminum layer. | 03-15-2012 |
20120064368 | COATED ARTICLE AND METHOD OF MAKING THE SAME - A coated article includes a substrate, a catalyst layer and a self-cleaning layer. The catalyst layer made of nickel is formed on the substrate. The self-cleaning layer is formed on the catalyst layer, including titanium, nickel, nickel oxide and titanium dioxide. | 03-15-2012 |
20120067721 | TARGET ASSEMBLY - A target assembly includes a base comprising a first surface and a second surface opposite to the first surface. The base defining a threaded hole; a magnetron mounted on a first surface; a target movably mounted to the second surface, the target defining an opening corresponding to the threaded hole, the opening including a first end and a second end; and a screw. The screw can slide in the opening from the first end to the second end so the position between magnetron and the target is adjusted to adjust the bombarded area of the target. | 03-22-2012 |
20120070653 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is provided. The coated article includes a substrate, and an anti-fingerprint layer formed on the substrate. The anti-fingerprint layer is a nano aluminum-oxygen-carbon-nitrogen (Al—O—C—N) layer. A method for making the coated article is also described there. | 03-22-2012 |
20120077002 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is provided. The coated article includes a substrate, a first anti-fingerprint layer formed on the substrate, and a second anti-fingerprint layer formed on the first anti-fingerprint layer. The first anti-fingerprint layer is a polytetrafluoroethylene layer. The second anti-fingerprint layer is a compound layer of polytetrafluoroethylene and aluminum-oxygen-nitrogen. A method for making the coated article is also described therein. | 03-29-2012 |
20120077009 | COATING, ARTICLE COATED WITH COATING, AND METHOD FOR MANUFACTURING ARTICLE - A coating includes a deposited layer. The deposited layer is a zirconium yttrium nitride layer. | 03-29-2012 |
20120077024 | HOUSING AND MANUFACTURING METHOD THEREOF - A housing includes a substrate and a nano-composite layer deposited on the substrate. The nano-composite layer includes a number of metal oxide nitride layers and a number of Ce layers. Each metal oxide nitride layer alternates with a Ce layer, and the outermost nano-composite layer is a metal oxide nitride layer. The metal in the metal oxide nitride layer aluminum, titanium, silicon, chromium, or zirconium. | 03-29-2012 |
20120088081 | COATED ARTICLE AND METHOD OF MAKING THE SAME - A coated article includes a substrate and a pattern layer formed on the substrate. The pattern layer includes a plurality of strips. Each area of these strips is in a range of about 0.001 mm | 04-12-2012 |
20120088083 | COATING, ARTICLE COATED WITH COATING, AND METHOD FOR MANUFACTURING ARTICLE - A coating includes a nano-composite layer including a plurality of stacked films. Each film includes a zirconium nitride layer and a zirconium yttrium nitride layer. | 04-12-2012 |
20120090868 | HOUSING AND METHOD FOR MAKING THE SAME - A housing for an electronic device includes a metal substrate and a luminous layer formed on the metal substrate, the luminous layer mainly comprises ZnO mixed with In. The disclosure also described a method to make the housing. | 04-19-2012 |
20120094095 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a combining layer formed on the substrate, a plurality of chromium nitride layers and a plurality of copper-zinc alloy layers formed on the combining layer. The combining layer is a chromium layer. Each chromium nitride layer interleaves with one copper-zinc alloy layer. A method for making the coated article is also described. | 04-19-2012 |
20120094096 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a combining layer formed on the substrate, a plurality of chromium nitride layers and a plurality of copper-titanium alloy layers formed on the combining layer. The combining layer is a chromium layer. Each chromium nitride layer interleaves with one copper-titanium alloy layer. A method for making the coated article is also described. | 04-19-2012 |
20120094097 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a combining layer formed on the substrate, a plurality of titanium dioxide layers and a plurality of copper-zinc alloy layers formed on the combining layer. The combining layer is a titanium layer. Each titanium dioxide layer interleaves with one copper-zinc alloy layer. A method for making the coated article is also described. | 04-19-2012 |
20120094098 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a combining layer formed on the substrate, a plurality of silicon dioxide layers and a plurality of copper-zinc alloy layers formed on the combining layer. The combining layer is a silicon layer. Each silicon dioxide layer interleaves with one copper-zinc alloy layer. A method for making the coated article is also described. | 04-19-2012 |
20120094108 | COMPOSITE OF METAL AND RESIN AND MANUFACTURING METHOD THEREOF - A composite of metal and resin includes a metal piece and a resin piece. The metal piece includes a surface. Micropores are formed on the surface. The micropores have inlet diameters smaller than bottom diameters thereof. The resin piece is partially inserted into the micropores to combine with the metal piece. | 04-19-2012 |
20120094145 | PROCESS FOR JOINING STAINLESS STEEL PART AND ZIRCONIA CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a stainless steel part and a zirconia ceramic part comprising: providing a SUS part, a ZrO | 04-19-2012 |
20120100381 | PROCESS FOR JOINING STAINLESS STEEL PART AND SILICON CARBIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a stainless steel part and a silicon carbide ceramic part comprising: providing a SUS part, a SiC ceramic part, a Mo foil and a Ti foil; placing the SiC ceramic part, the Mo foil, the Ti foil, and the SUS part into a mold, the Mo foil and the Ti foil located between the SiC ceramic part and the SUS part, the Mo foil abutting the SiC ceramic part, the Ti foil abutting the SUS part and the Mo foil; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the SUS part, the SiC ceramic part, the Mo foil, and the Ti foil at least until the SUS part, the SiC ceramic part, the Mo foil and the Ti foil form a integral composite article. | 04-26-2012 |
20120100388 | PROCESS FOR JOINING STAINLESS STEEL PART AND TITANIUM CARBIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a stainless steel part and a titanium carbide ceramic part comprising: providing a SUS part, a TiC ceramic part, a Ti foil and a Fe foil; placing the TiC ceramic part, the Ti foil, the Fe foil, and the SUS part into a mold, the Ti foil and the Fe foil located between the TiC ceramic part and the SUS part, the Ti foil abutting the TiC ceramic part, the Fe foil abutting the SUS part and the Ti foil; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the SUS part, the TiC ceramic part, the Ti foil, and the Fe foil at least until the SUS part, the TiC ceramic part, the Ti foil and the Fe foil form a integral composite article. | 04-26-2012 |
20120100389 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate and a decorative layer formed on the anti-corrosion layer. The substrate is made of aluminum or aluminum alloy. The anti-corrosion layer is an aluminum layer. The coated article has improved corrosion resistance. | 04-26-2012 |
20120103819 | ALUMINUM ARTICLE AND PROCESS FOR MAKING SAME - An aluminum article includes a substrate made of aluminum or aluminum alloy, a porous aluminum oxide layer formed on the substrate, and a transparent vacuum coated layer formed on the aluminum oxide layer. The aluminum oxide layer has a top surface and a plurality of pores defined therein. The pores run through the top surface and each pore is formed by peripheral wall and bottom wall. The vacuum coated layer covers the top surface as well as the peripheral walls and bottom walls of the pores, thereby forming a profile corresponding to the aluminum oxide layer. | 05-03-2012 |
20120107606 | ARTICLE MADE OF ALUMINUM OR ALUMINUM ALLOY AND METHOD FOR MANUFACTURING - An article includes a substrate made of aluminum or aluminum alloy, an insulating coating formed on the substrate, and an anticorrosive coating formed on the insulating coating. The insulating coating is composed of electrically insulating ceramic material or polymer. The anticorrosive coating is a ceramic coating formed by physical vapor deposition. | 05-03-2012 |
20120107640 | PROCESS FOR JOINING CARBON STEEL PART AND SILICON CARBIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a carbon steel part and a silicon carbide ceramic part, comprising steps of: providing a carbon steel part, a SiC ceramic part, and a Ni foil; bringing surfaces of the carbon steel part, SiC ceramic part, and Ni foil into contact, with the Ni foil inserted between the carbon steel part and SiC ceramic part; applying a pulsed electric current to the parts to be joined, heating the parts to a joining temperature of about 800-1100° C., and simultaneously applying a joining pressure of about 20-60 MPa to the parts while the current is applied, and maintaining the joining temperature and the joining pressure for about 10-30 minutes. | 05-03-2012 |
20120107641 | PROCESS FOR JOINING STAINLESS STEEL PART AND SILICON CARBIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a stainless steel part and a silicon carbide ceramic part comprising: providing a SUS part, a SiC ceramic part, a Mo foil and a Ni foil; depositing a nickel coating on a surface of the SiC ceramic part; placing the SiC ceramic part, the Mo foil, the Ni foil, and the SUS part into a mold, the Mo foil and the Ni foil located between the SiC ceramic part and the SUS part; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the SUS part with the nickel coating, the SiC ceramic part, the Mo foil, and the Ni foil at least until the SUS part, the SiC ceramic part, the Mo foil and the Ni foil form a integral composite article. | 05-03-2012 |
20120107643 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of magnesium or magnesium alloy. The anti-corrosion layer is a magnesium layer. The coated article has improved corrosion resistance. | 05-03-2012 |
20120114950 | COATED ARTICLE AND METHOD OF MAKING THE SAME - A coated article includes a metal layer coated on a substrate. The substrate is made of plastic with photosensitivity property, and has a plurality of free radicals —O. and —CO. a surface thereof. The metal layer is coated on the substrate. The free radicals link with metal atoms of the metal layer to connect the substrate and the metal layer. | 05-10-2012 |
20120114967 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of magnesium or magnesium alloy. The anti-corrosion layer includes a magnesium layer formed on the substrate and a magnesium oxide layer formed on the magnesium layer. The coated article has improved corrosion resistance. | 05-10-2012 |
20120118625 | ELECTROMAGNETIC SHIELDING ARTICLE AND METHOD FOR MANUFACTURING SAME - An electromagnetic shielding article includes a plastic substrate, a silicon dioxide layer deposited on the plastic substrate, an electromagnetic shielding layer deposited on the plastic substrate, and a protection layer deposited on the electromagnetic shielding layer. | 05-17-2012 |
20120118626 | ELECTROMAGNETIC SHIELDING ARTICLE AND METHOD FOR MANUFACTURING SAME - An electromagnetic shielding article includes a plastic substrate; a nickel vanadium layer deposited on the plastic substrate; an electromagnetic shielding layer deposited on the plastic substrate; and a protection layer deposited on the electromagnetic shielding layer. A method for manufacturing the electromagnetic shielding article comprising steps of: providing a plastic substrate; depositing a nickel vanadium layer on the plastic substrate by radio-frequency induction plasma spraying process; depositing an electromagnetic shielding layer on the nickel vanadium layer; and depositing a protection layer on the electromagnetic shielding layer. | 05-17-2012 |
20120118627 | ELECTROMAGNETIC SHIELDING ARTICLE AND METHOD FOR MANUFACTURING SAME - An electromagnetic shielding article includes a plastic substrate; an aluminum layer deposited on the plastic substrate; an electromagnetic shielding layer deposited on the aluminum layer; and a protection layer deposited on the electromagnetic shielding layer. | 05-17-2012 |
20120121856 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is provided. The coated article includes a substrate, a bonding layer formed on the substrate, and an anti-fingerprint layer formed on the bonding layer. The bonding layer comprises silicon-oxygen compound and has a plurality of nano-sized mastoids on a surface boding the anti-fingerprint layer. The anti-fingerprint layer comprises polytetrafluoroethylene and has a profile corresponding to the profile of the bonding layer. A method for making the coated article is also described there. | 05-17-2012 |
20120121895 | ANTI-CORROSION TREATMENT PROCESS FOR ALUMINUM OR ALUMINUM ALLOY AND ALUMINUM OR ALUMINUM ALLOY ARTICLE THEREOF - An aluminum or aluminum alloy article is described. The aluminum or aluminum alloy article includes an aluminum or aluminum alloy substrate, a color layer formed on the substrate, and an insulation layer formed on the color layer. The color layer is formed by vacuum sputtering. The insulation layer is an external layer of the aluminum or aluminum article. | 05-17-2012 |
20120121926 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of aluminum or aluminum alloy. The anti-corrosion layer includes an aluminum layer formed on the substrate and an aluminum oxide layer formed on the aluminum layer. The coated article has improved corrosion resistance. | 05-17-2012 |
20120125803 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing is provided. The device housing includes a substrate, and an anti-fingerprint film formed on the substrate. The anti-fingerprint film is a nano-composite coating consisting essentially of tin oxide. A method for making the device housing is also described. | 05-24-2012 |
20120128948 | COATED ARTICLE AND METHOD FOR MANUFACTURING SAME - A coated article includes a substrate; a color layer deposited on the substrate; and a pattern layer deposited on the surface of the color layer opposite to the substrate. A network of metal nuclei groups forms the pattern layer. The network of metal nuclei groups includes a plurality of metal nuclei, and each metal nucleus is bonded to at least one other metal nucleus. | 05-24-2012 |
20120129002 | ALUMINUM ARTICLE AND METHOD FOR MANUFACTURING SAME - An aluminum article includes a substrate comprising a surface having a plurality of nano-pores defined therein; and a transparent vacuum deposition layer deposited on the surface and filling the nano-pores. | 05-24-2012 |
20120129004 | HOUSING AND METHOD FOR MANUFACTURING HOUSING - A housing includes a magnesium or magnesium alloy substrate, a first metal layer formed on the substrate by physical vapor deposition, and a second metal layer formed on the first metal layer by electroplating. The first metal layer is comprised of one or more metals selected from the group consisting of zinc, iron, copper, and nickel. | 05-24-2012 |
20120132660 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing is provided. The device housing includes a substrate, and an anti-fingerprint film formed on the substrate. The substrate has roughness in a range from about 0.05 μm to about 0.25 μm. The anti-fingerprint film is a nano-composite coating consisting essentially of polytetrafluoroethylene. A method for making the device housing is also described. | 05-31-2012 |
20120135212 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is provided. The coated article comprises a substrate and an anti-fingerprint layer formed on the substrate. The anti-fingerprint layer comprises a plurality of aluminum oxide layers, a plurality of aluminum-nitrogen layers of aluminum-nitrogen compound, and an aluminum-oxygen-nitrogen layer of aluminum-oxygen-nitrogen compound. The aluminum oxide layers and the aluminum-nitrogen layers are alternate between the substrate and the aluminum-oxygen-nitrogen layer. A method for making the coated article is also described there. | 05-31-2012 |
20120135222 | ALUMINUM ARTICLE AND METHOD FOR MANUFACTURING SAME - An aluminum article includes a substrate comprising a surface having a plurality of nano-pores defined therein by chemical etching; and a transparent vacuum deposition layer deposited on the surface and filling the nano-pores. | 05-31-2012 |
20120135268 | PROCESS FOR JOINING STAINLESS STEEL PART AND SILICON NITRIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a stainless steel part and a silicon nitride ceramic part comprising: providing a stainless steel part, a SiN ceramic part, a Mo foil and a Fe foil; placing the SiN ceramic part, the Mo foil, the Fe foil, and the stainless steel part into a mold, the Mo foil and the Fe foil located between the SiN ceramic part and the stainless steel part, the Mo foil abutting the SiN ceramic part, the Fe foil abutting the stainless steel part and the Mo foil; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the stainless steel part, the SiN ceramic part, the Mo foil, and the Fe foil at least until the stainless steel part, the SiN ceramic part, the Mo foil and the Fe foil form a integral composite article. | 05-31-2012 |
20120135269 | COATED ARTICLE AND METHOD FOR MANUFACTURING - A coated article includes a substrate, a first magnesium-tin alloy layer, a tin layer, a second magnesium-tin alloy layer, a magnesium layer and a magnesium-nitrogen layer. The substrate is made of magnesium or a magnesium alloy. The substrate made of magnesium or magnesium alloy. The first magnesium-tin alloy layer formed on the substrate. The tin layer formed on the first magnesium-tin alloy layer. The second magnesium-tin alloy layer formed on the tin layer. The magnesium layer formed on the second magnesium-tin alloy layer. The magnesium-nitrogen layer formed on the magnesium layer. | 05-31-2012 |
20120141784 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is provided. The coated article comprises a substrate having a first anti-fingerprint layer, and a second anti-fingerprint layer formed thereon and in that order. The first anti-fingerprint layer is an aluminum oxide layer. The second anti-fingerprint layer is an aluminum-oxygen-nitrogen compound layer implanted with one or more ion species selected from the group consisting of fluorine ion, boron ion, and nitrogen ion. A method for making the coated article is also described there. | 06-07-2012 |
20120141819 | POROUS SILICON ARTICLE AND ABOUT METHOD FOR MANUFACTURING SAME - A porous silicon article includes a substrate; a silicon metal layer formed on the substrate; and about a porous silicon layer formed on the silicon metal layer. The silicon metal layer is a silicon layer doped with M that is at least one element selected from a group consisting of aluminum, magnesium and about calcium, the content of M in the silicon metal layer is between about 30 wt % and about 50 wt %. | 06-07-2012 |
20120141820 | POROUS METAL ARTICLE AND ABOUT METHOD FOR MANUFACTURING SAME - A porous metal article includes a substrate; a metal layer formed on the substrate; and a porous metal layer formed on the metal layer. The metal layer is a noble metal layer doped with M that is at least one element selected from a group consisting of aluminum, magnesium and calcium, the content of M in the metal layer is between about 30 wt % and about 70 wt %. | 06-07-2012 |
20120141823 | PROCESS FOR JOINING BRASS PART AND SILICONE CARBIDE CERIMICS PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a brass part and a silicone carbide ceramics part, comprising steps of: providing a metal part made of brass, a ceramic part made of silicone carbide ceramics, a titanium foil and a nickel foil; bring the metal part, ceramic part, titanium foil and nickel foil into contact, with the titanium and nickel foil inserted between the metal part and ceramic part; applying a pressure of about 20 MPa˜60 MPa to the parts to be joined; and simultaneously applying a pulse electric current to the parts while the pressure is applied for heating up the parts to a temperature of about 950° C. to about 1150° C. at a rate of about 50° C./min˜300° C./min, maintaining the temperature for about 20 minutes˜40 minutes. | 06-07-2012 |
20120141824 | PROCESS FOR JOINING BRASS PART AND SILICONE CARBIDE CERIMICS PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a brass part and a silicone carbide ceramics part, comprising steps of: providing parts comprising a brass part, a silicone carbide ceramics part, an aluminum foil and a nickel foil; bringing surfaces of the silicone carbide ceramics part, the aluminum foil, the nickel foil and the brass part into contact in turn; applying a joining pressure between about 10 MPa and 40 MPa to the parts; heating the parts at a rate below 50° C./min when a temperature of the parts is below about 300° C.; when the temperature of the parts is above about 300° C., heating the parts at a rate of about 80° C./min˜200° C./min until to a joining temperature of about 550° C. to about 650° C., and maintaining the joining temperature between about 15 minutes and 40 minutes | 06-07-2012 |
20120141825 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, a bonding layer formed on the substrate, an anti-corrosion layer formed on the bonding layer. The substrate is made of aluminum or aluminum alloy. The bonding layer is a silicon layer. The anti-corrosion layer is a silicon nitride layer. The coated article has improved corrosion resistance. | 06-07-2012 |
20120141826 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of aluminum or aluminum alloy. The anti-corrosion layer is an aluminum-copper alloy layer. The coated article has improved corrosion resistance. | 06-07-2012 |
20120141827 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of magnesium or magnesium alloy. The anti-corrosion layer includes a magnesium layer formed on the substrate and a magnesium nitride layer formed on the magnesium layer. The coated article has improved corrosion resistance. | 06-07-2012 |
20120148864 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of aluminum or aluminum alloy. The anti-corrosion layer includes an aluminum-copper alloy layer formed on the substrate and an aluminum nitride layer formed on the aluminum-copper alloy layer. The coated article has good corrosion resistance. | 06-14-2012 |
20120148865 | ARTICLE AND METHOD FOR MANUFACTURING ARTICLE - An article includes a niobium alloy substrate; an iridium layer deposited on the niobium alloy substrate; and a chromium oxygen-nitride layer deposited on the iridium layer opposite to the iridium layer. | 06-14-2012 |
20120148867 | PROCESS FOR JOINING BRASS PART AND SILICON CARBIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a brass part and a silicon carbide ceramic part comprising: providing a brass part, a SiC ceramic part, a Ti foil and a Ni foil; placing the SiC ceramic part, the Ti foil, the Ni foil, and the brass part into a mold, the Ti foil and the Ni foil located between the SiC ceramic part and the brass part, the Ti foil abutting against the SiC ceramic part, the Ni foil abutting against the brass part and the Ti foil; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the brass part, the SiC ceramic part, the Ti foil, and the Ni foil at least until the brass part, the SiC ceramic part, the Ti foil and the Ni foil form a integral composite article. | 06-14-2012 |
20120148868 | PROCESS FOR JOINING BRONZE PART AND SILICON CARBIDE CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a bronze part and a silicon carbide ceramic part comprising: providing a bronze part, a SiC ceramic part, a Al foil and a Ni foil; placing the SiC ceramic part, the Al foil, the Ni foil, and the bronze part into a mold, the Al foil and the Ni foil located between the SiC ceramic part and the bronze part, the Al foil abutting against the SiC ceramic part, the Ni foil abutting against the bronze part and the Al foil; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the bronze part, the SiC ceramic part, the Al foil, and the Ni foil at least until the bronze part, the SiC ceramic part, the Al foil and the Ni foil form a integral composite article. | 06-14-2012 |
20120148869 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, and a decorative layer formed on the anti-corrosion layer. The substrate is made of magnesium or magnesium alloy. The anti-corrosion layer includes a magnesium layer formed on the substrate and a magnesium oxynitride layer formed on the magnesium layer. The coated article has improved corrosion resistance. | 06-14-2012 |
20120148872 | ALUMINUM ARTICLE AND METHOD FOR MANUFACTURING SAME - An aluminum article includes a substrate comprising a surface having a plurality of pores defined therein by high energy beam etching; and a transparent vacuum deposition layer deposited on the surface and filling the pores. | 06-14-2012 |
20120152793 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing is described. The device housing includes a transparent substrate, a color layer formed on an inside surface of the substrate, and a reflection layer formed on the color layer. The substrate is made of transparent glass or plastic. The color layer is a zirconium oxide layer. The reflection layer is a zirconium layer. The color value of the device housing has a L* coordinate between 30 and 35, an a* coordinate between 9 and 11, and a b* coordinate between −18 and −20 in the CIE LAB color system. A method for making the device housing is also described. | 06-21-2012 |
20120156407 | HOUSING AND METHOD FOR MANUFACTURING SAME - A housing includes a substrate; a color layer deposited on the substrate; and a pattern layer deposited on the color layer opposite to the substrate. | 06-21-2012 |
20120156475 | MAGNESIUM ALLOY ARTICLE AND METHOD FOR MAKING THE SAME - A magnesium alloy article includes a base made of magnesium alloy, a coating layer formed on the base, and an intermediate layer formed between the base and the coating layer. The intermediate layer is a mixture of component mainly including Mg, Al, O, P, Mn. The disclosure also described a method to make the housing. | 06-21-2012 |
20120156518 | PROCESS FOR JOINING STAINLESS STEEL PART AND ZIRCONIA CERAMIC PART AND COMPOSITE ARTICLES MADE BY SAME - A process for joining a stainless steel part and a zirconia ceramic part comprising: providing a SUS part, a ZrO ceramic part, a Mo foil and a Ni foil; placing the ZrO ceramic part, the Mo foil, the Ni foil, and the SUS part into a mold, the Mo foil and the Ni foil located between the ZrO ceramic part and the SUS part, the Mo foil abutting against the ZrO ceramic part, the Ni foil abutting against the SUS part and the Mo foil; placing the mold into a chamber of an hot press sintering device, heating the chamber and pressing the SUS part, the ZrO ceramic part, the Mo foil, and the Ni foil at least until the SUS part, the ZrO ceramic part, the Mo foil and the Ni foil form a integral composite article. | 06-21-2012 |
20120164356 | PROCESS FOR SURFACE TREATING ALUMINUM OR ALUMINUM ALLOY AND ARTICLE MADE WITH SAME - A method for surface treating aluminum or aluminum alloy, the method comprising the following steps of: providing a substrate made of aluminum or aluminum alloy; forming a TiON coating on the substrate by magnetron sputtering, using aluminum as a target, and nitrogen and oxygen as reactive gases; and forming a chromium oxynitride coating on the TiON coating by magnetron sputtering, using chromium as a target, and nitrogen and oxygen as reactive gases. | 06-28-2012 |
20120164410 | COATED ARTICLE AND METHOD FOR MANUFACTURING COATED ARTICLE - An coated article includes a substrate; and a lubricant layer deposited on the substrate; wherein the lubricant layer is a molybdenum sulphur boron nitride layer and comprises molybdenum sulfur boron nitride (MoSBN) having a molybdenum disulfide phase and a boron nitride phase. | 06-28-2012 |
20120164418 | ARTICLE HAVING HARD FILM AND METHOD FOR MAKING THE ARTICLE - An article includes a substrate and a hard film formed on the substrate. The hard film includes a plurality of TiAlN layers and a plurality of BN layers, each BN layer and each TiAlN layer is alternately arranged. The disclosure also describes a method to make the article. | 06-28-2012 |
20120164435 | COATED ARTICLE AND METHOD OF MAKING THE SAME - A coated article includes a bonding layer, a chromium oxynitride layer a boron nitride layer formed on a substrate in that order. The boron nitride layer is made of hexagonal structure boron nitride. | 06-28-2012 |
20120164436 | ARTICLE HAVING HARD FILM AND METHOD FOR MAKING THE ARTICLE - An article includes a substrate and a hard film formed on the substrate; the hard film includes a plurality of complex layers and a plurality of Ni layers, each complex layer and Ni layer alternately arranged; each complex layer includes a plurality of TiAlN layers and a plurality of CrAlN layers, each TiAlN layer alternately arranged with each CrAlN layer. The disclosure also described a method to make the article. | 06-28-2012 |
20120164437 | COATED ARTICLE AND METHOD FOR MAKING SAME - A process for coating articles is provided. The coated article includes a substrate, abase layer formed on the substrate; a chromium oxynitride layer formed on the base layer; and a silicon nitrogen layer formed on the chromium oxynitride layer. The chromium oxynitride layer and silicon nitride layer protect the substrate from oxidizing at high temperatures, extending the life of the coated article. A method for making the coated article is also described. | 06-28-2012 |
20120164438 | PROCESS FOR SURFACE TREATING ALUMINUM OR ALUMINUM ALLOY AND ARTICLE MADE WITH SAME - A process for treating the surface of aluminum or aluminum alloy comprises providing a substrate made of aluminum or aluminum alloy. Then a silane-based hybrid film doped with cerous salt is formed on the substrate by sol-gel process, and a ceramic coating comprising refractory compound is formed on the silane-based hybrid film by physical vapor deposition. | 06-28-2012 |
20120164459 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes an aluminum or aluminum alloy substrate and a corrosion resistant layer formed on the substrate. The corrosion resistant layer is a compound silicon-titanium-nitrogen layer. A method for making the coated article is also described. | 06-28-2012 |
20120164460 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes an aluminum or aluminum alloy substrate and a corrosion resistant layer formed on the substrate. The corrosion resistant layer is a compound silicon-chromium-nitrogen layer. A method for making the coated article is also described. | 06-28-2012 |
20120164471 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order. The corrosion resistant layer is an Al—O layer. Then, La ions are implanted in the Al—O layer by ion implantation process. The atomic percentages of O in the Al—O gradient layer gradually increase from the side of Al—O gradient layer near the aluminum or aluminum alloy substrate to the other side of Al—O gradient layer, away from aluminum or aluminum alloy substrate. Therefore the housing has a high corrosion resistance. A method for making the housing is also provided. | 06-28-2012 |
20120164475 | COATED ARTICLE AND METHOD FOR MANUFACTURING COATED ARTICLE - An coated article includes a substrate; an chromium layer deposited on the substrate; and a silicon-nitride layer deposited on the chromium layer opposite to the substrate. | 06-28-2012 |
20120164476 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate, an anti-corrosion layer formed on the substrate, a decorative layer formed on the anti-corrosion layer. The substrate is made of aluminum or aluminum alloy. The anti-corrosion layer is a silicon layer. The coated article has improved corrosion resistance. | 06-28-2012 |
20120164477 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is provided. The coated article includes a substrate having a bonding layer, and a hard coating formed thereon, and in that order. The hard coating has a composition represented by the formula Ti | 06-28-2012 |
20120164480 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate and an anti-corrosion layer formed on the substrate. The substrate is made of aluminum or aluminum alloy. The anti-corrosion layer is an aluminum-copper alloy layer implanted with manganese ions. The coated article has good corrosion resistance. | 06-28-2012 |
20120164481 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is described. The coated article includes a stainless steel substrate, a bonding layer formed on the substrate, and a hard layer formed on the bonding layer. The bonding layer is a nickel-chromium alloy layer. The hard layer is a nickel-chromium-boron-nitrogen layer. The mass percentage of nitrogen within the hard layer is gradually increased from the area near the bonding layer to the area away from the bonding layer. A method for making the coated article is also described. | 06-28-2012 |
20120164482 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is described. The coated article includes a stainless steel substrate, a bonding layer formed on the substrate, and a hard layer formed on the bonding layer. The bonding layer is a nickel-chromium alloy layer. The hard layer is a nickel-chromium-boron-carbon-nitrogen layer. The mass percentages of carbon and nitrogen within the hard layer are gradually increased from the area near the bonding layer to the area away from the bonding layer. A method for making the coated article is also described. | 06-28-2012 |
20120168034 | PROCESS FOR SURFACE TREATING ALUMINUM OR ALUMINUM ALLOY AND ARTICLE MADE WITH SAME - A process for surface treating aluminum or aluminum alloy comprises the following steps. Providing a substrate made of aluminum or aluminum alloy. The substrate is treated with a chemical conversion treatment solution containing molybdate as the main film forming agent, to form a molybdate conversion film on the substrate. Then, a ceramic coating comprising refractory compound is formed on the molybdate conversion film by physical vapor deposition. | 07-05-2012 |
20120171416 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a magnesium oxide-alumina compound layer formed on the substrate, and an anti-fingerprint layer formed on the magnesium oxide-alumina compound layer. The anti-fingerprint layer is a layer of magnesium-aluminum-oxygen-fluorine having the chemical formula of MgAlO | 07-05-2012 |
20120171421 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, and an anti-fingerprint film formed on the substrate. The anti-fingerprint film includes a non-crystalline alumina layer formed on the substrate and a non-crystalline aluminum-oxygen-fluorine layer formed on the non-crystalline alumina layer. The aluminum-oxygen-fluorine has a chemical formula of AlO | 07-05-2012 |
20120171422 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, and an anti-fingerprint film formed on the substrate. The anti-fingerprint film includes a non-crystalline silicon dioxide layer formed on the substrate and a non-crystalline silicon-oxygen-fluorine layer formed on the non-crystalline silicon dioxide layer. The silicon-oxygen-fluorine has a chemical formula of SiO | 07-05-2012 |
20120171472 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is provided. The coated article includes a substrate and a thermochromic layer formed on the substrate. The thermochromic layer is a vanadium dioxide layer co-doped with M and R. M comprises one or more elements selected from a group consisting of titanium, niobium, molybdenum and tungsten; R comprises one or more elements selected from a group consisting of rhodium, palladium and ruthenium. The thermochromic temperature of the thermochromic layer is reduced by doping M and R. A method for making the coated article is also described there. | 07-05-2012 |
20120171473 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is provided. The coated article includes a substrate, a hydrophobic layer formed on the substrate. The hydrophobic layer is an amorphous carbon nitride layer which is defined as CN | 07-05-2012 |
20120171474 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is provided. The coated article includes a substrate, a hydrophobic layer formed on the substrate. The hydrophobic layer includes a first layer portion formed on the substrate and a second layer portion formed on the first layer portion, the first layer portion is a CN | 07-05-2012 |
20120171500 | PROCESS FOR SURFACE TREATING MAGNESIUM ALLOY AND ARTICLE MADE WITH SAME - A process for treating the surface of magnesium alloy comprises providing a substrate made of magnesium alloy. The substrate is then treated with a chemical conversion treatment solution containing oleic acid as a main film forming agent, to form an oleic acid conversion film on the substrate. A ceramic coating comprising refractory metal compound is next formed on the cerium conversion film by physical vapor deposition. | 07-05-2012 |
20120171501 | PROCESS FOR SURFACE TREATING MAGNESIUM ALLOY AND ARTICLE MADE WITH SAME - A process for treating the surface of magnesium alloy comprises providing a substrate made of magnesium alloy. Then an inorganic chemical conversion film is formed on the substrate by an inorganic chemical conversion treatment. An organic chemical conversion film is subsequently formed on the inorganic chemical conversion film by an organic chemical conversion treatment. Then a ceramic coating comprising refractory metal compound is formed on the chemical conversion film by physical vapor deposition. An article made of magnesium alloy created by the present process also is provided. | 07-05-2012 |
20120171502 | PROCESS FOR SURFACE TREATING MAGNESIUM ALLOY AND ARTICLE MADE WITH SAME - A process for treating the surface of magnesium alloy comprises providing a substrate made of magnesium alloy. The substrate is then treated with a chemical conversion treatment solution containing cerium nitrate and potassium permanganate as main film forming agents, to form a cerium conversion film on the substrate. A ceramic coating comprising refractory metal compound is next formed on the cerium conversion film by physical vapor deposition. | 07-05-2012 |
20120171508 | COATED ARTICLE AND METHOD FOR MANUFACTURINGTHE COATED ARTICLE - A coated article is provided. A coated article includes a composite substrate made from carbon fiber and zirconium diboride. A chromium layer is deposited on the substrate. A chromium diffusing layer is formed between the substrate and the chromium layer. A chromium-nitrogen layer is deposited on the chromium layer. A iridium layer is deposited on the chromium-nitrogen layer opposite to the chromium layer, wherein the chromium-nitrogen layer includes a first chromium-nitrogen layer and a second chromium-nitrogen layer. The first chromium-nitrogen layer abuts the chromium layer. The second chromium-nitrogen layer abuts the iridium layer. The atomic nitrogen content in the first chromium-nitrogen layer gradually increases with the thickness of the first chromium-nitrogen layer. The atomic nitrogen content in the second chromium-nitrogen layer gradually decreases with the thickness of the second chromium-nitrogen layer. | 07-05-2012 |
20120171511 | PROCESS FOR SURFACE TREATING ALUMINUM OR ALUMINUM ALLOY AND ARTICLE MADE WITH SAME - A process for treating the surface of aluminum or aluminum alloy comprises providing a substrate made of aluminum or aluminum alloy. Then a zinc-plating layer is formed on the substrate by electroless plating with a zinc electroless plating solution, and a ceramic coating comprising refractory compound is next formed on the zinc-plating layer using physical vapor deposition. | 07-05-2012 |
20120171513 | ARTICLE AND METHOD FOR MANUFACTURING ARTICLE - An article includes a substrate made of carbon fiber and zirconium diboride composites; an chromium layer deposited on the substrate; an chromium diffusing layer formed between the substrate and the chromium layer; and a iridium layer deposited on the chromium layer opposite to the chromium diffusing layer. | 07-05-2012 |
20120171514 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order. The corrosion resistant layer is an Al—C—N layer. Then, La ions is implanted in the Al—C—N layer by ion implantation process. The atomic percentages of N and C in the Al—C—N gradient layer gradually increase from the side of Al—C—N gradient layer near the aluminum or aluminum alloy substrate to the other side of Al—C—N gradient layer, away from aluminum or aluminum alloy substrate. Therefore the housing has a high corrosion resistance. A method for making the housing is also provided. | 07-05-2012 |
20120171515 | COATED ARTICLE AND METHOD FOR MANUFACTURING COATED ARTICLE - An coated article includes a substrate; and a coating deposited on the substrate, wherein the coating is a titanium layer mixed with a first element and a second element, M is at least one element selected from a group consisting of iron, cobalt, nickel, copper, niobium, hafnium and tantalum; R is at least one element selected from a group consisting of scandium, yttrium and lanthanide. | 07-05-2012 |
20120171516 | COATED ARTICLE AND METHOD FOR MANUFACTURING COATED ARTICLE - An coated article includes a substrate; and a coating deposited on the substrate, wherein the coating being a zirconium layer co-doped with M and R. M is at least one element selected from a group consisting of iron, cobalt, nickel, copper, niobium, hafnium and tantalum. R is at least one element selected from a group consisting of scandium, yttrium and lanthanide. | 07-05-2012 |
20120183764 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, and an anti-fingerprint film formed on the substrate. The anti-fingerprint film is a carbon-nitrogen-fluorine layer. The carbon-nitrogen-fluorine has a chemical formula of C | 07-19-2012 |
20120183765 | COATED ARTICLE AND METHOD FOR MANUFACTURING SAME - A coated article, includes a substrate, an anti-corrosion layer deposited on the substrate, the anti-corrosion layer being composed of ZrW | 07-19-2012 |
20120183766 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article is provided. The coated article includes a substrate, a base layer formed on the substrate; a nickel oxynitride layer formed on the base layer; and a silicon nitride layer formed on the nickel oxynitride layer. The nickel oxynitride layer and silicon nitride layer can protect the substrate from oxidizing at high temperature, which effectively extend the use time of the coated article. A method for making the coated article is also described. | 07-19-2012 |
20120183803 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order. The corrosion resistant layer is an Al—C—N layer. Then, Gd ions is implanted in the Al—C—N layer by ion implantation process. The atomic percentages of N and C in the Al—C—N gradient layer gradually increase from the side of Al—C—N gradient layer near the aluminum or aluminum alloy substrate to the other side of Al—C—N gradient layer, away from aluminum or aluminum alloy substrate. Therefore the housing has a high corrosion resistance. A method for making the housing is also provided. | 07-19-2012 |
20120183805 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate and a color layer formed on the substrate. The substrate is made of aluminum or aluminum alloy. The color layer includes an aluminum layer formed on the substrate and an aluminum oxide layer formed on the aluminum layer. In the CIE LAB color system, L* coordinate of the color layer is between 75 and 100, a* coordinate of the color layer is between −1 and 1, b* coordinate of the color layer is between −1 and 1. The coated article has a white color. | 07-19-2012 |
20120188628 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes a substrate and a thermochromic coating formed on the substrate. The thermochromic coating is a vanadium dioxide layer co-doped M and R, where M is two or more elements selected from a group consisting of titanium, niobium, molybdenum and tungsten, R is one or more elements selected from a group consisting of rhodium, palladium and ruthenium. | 07-26-2012 |
20120189865 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order. The corrosion resistant layer is an Al—O layer. Then, Nd ions are implanted in the Al—O layer by ion implantation process. The atomic percentages of O in the Al—O gradient layer gradually increases from the side of Al—O gradient layer near the aluminum or aluminum alloy substrate to the other side of Al—O gradient layer, away from aluminum or aluminum alloy substrate. Therefore the housing has a high corrosion resistance. A method for making the housing is also provided. | 07-26-2012 |
20120189867 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order. The corrosion resistant layer is an Al—O layer. Then, Gd ions are implanted in the Al—O layer by ion implantation process. The atomic percentages of O in the Al—O gradient layer gradually increase from the side of Al—O gradient layer near the aluminum or aluminum alloy substrate to the other side of Al—O gradient layer, away from aluminum or aluminum alloy substrate. Therefore the housing has a high corrosion resistance. A method for making the housing is also provided. | 07-26-2012 |
20120189869 | COATED ARTICLE HAVING ANTIBACTERIAL EFFECT AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a plurality of zinc layers and a plurality of zinc oxide layers formed on the substrate. Each zinc layer interleaves with one zinc oxide layer. One of the zinc layers is formed on the substrate. One of the zinc oxide layers forms an outermost layer of the coated article. A method for making the coated article is also described. | 07-26-2012 |
20120189870 | COATED GLASS AND METHOD FOR MAKING THE SAME - A coated glass includes a glass substrate, a first titanium oxide layer, a silver layer, a titanium layer, a titanium nitrogen layer and a second titanium oxide. The first titanium oxide layer is formed on the glass substrate. The silver layer is formed on the first titanium oxide layer. The titanium layer is formed on the sliver layer. The titanium nitrogen layer is formed on the titanium layer, and the second titanium oxide layer is formed on the titanium nitrogen layer. | 07-26-2012 |
20120196117 | COATED GLASS AND METHOD FOR MAKING THE SAME - A coated glass includes a substrate and a coating. The coating is deposited on the substrate by vacuum sputtering. The coating is a tin oxide layer co-doped with antimony and bismuth, the molar ratio of tin, antimony, and bismuth is 11-14:1.2-2:0.2-1.5, the coating has a thickness of about 300 nm to about 450 nm. | 08-02-2012 |
20120196145 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order. The corrosion resistant layer is an Al—C—N layer. Then, Ce ions are implanted in the Al—C—N layer by ion implantation process. The atomic percentages of N and C in the Al—C—N gradient layer gradually increase from the side of Al—C—N gradient layer near the aluminum or aluminum alloy substrate to the other side of Al—C—N gradient layer, away from aluminum or aluminum alloy substrate. Therefore the housing has a high corrosion resistance. A method for making the housing is also provided. | 08-02-2012 |
20120196148 | COATED ARTICLE AND METHOD OF MAKING THE SAME - A coated article includes a magnesium layer, a magnesium oxynitride layer a titanium nitride layer formed on a substrate in that order. The substrate is made of magnesium alloy. | 08-02-2012 |
20120206789 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article includes an electrochromic layer made of tungsten trioxide doped with metal selected from molybdenum, niobium, and/or titanium. A method for making the device housing is also described there. | 08-16-2012 |
20120207988 | COATED GLASS AND METHOD FOR MAKING THE SAME - A coated glass includes a substrate, a first conductive layer, a metallic layer and a second conductive layer. The first conductive layer is deposited on the substrate. The metallic layer is deposited on the first conductive layer. The second conductive layer is deposited on the metallic layer. The first conductive layer and the second conductive layer are consisted of tin oxide, antimony oxide and zinc oxide, zinc oxide has a mole percentage in a range from about 30% to about 50%, antimony oxide has a mole percentage in a range from about 1% to about 5%, and the remaining is tin oxide. | 08-16-2012 |
20120213989 | COATED GLASS ARTICLE AND METHOD FOR MANUFACTURING SAME - A very protective coated glass article includes a glass substrate, a bond enhancing layer formed on the bond enhancing layer and a boron carbide layer deposited on the bond enhancing layer. A method of manufacturing the coated glass article is provided. | 08-23-2012 |
20120219819 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloys substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloys substrate in that order. The corrosion resistant layer is an Al—O—N layer. Then, Gd ions is implanted in the Al—O—N layer by ion implantation process. The atomic percentages of N and O in the Al—O—N gradient layer gradually increase from the bottom of the layer near the aluminum or aluminum alloys substrate to the top of the layer away from aluminum or aluminum alloys substrate by physical vapor deposition. The housing has a higher corrosion resistance. A method for making the housing is also provided. | 08-30-2012 |
20120219820 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order. The corrosion resistant layer is an Al—C—N layer. Then, Nd ions are implanted in the Al—C—N layer by ion implantation process. The atomic percentages of N and C in the Al—C—N gradient layer gradually increase from the side of Al—C—N gradient layer near the aluminum or aluminum alloy substrate to the other side of Al—C—N gradient layer, away from aluminum or aluminum alloy substrate. Therefore the housing has a high corrosion resistance. A method for making the housing is also provided. | 08-30-2012 |
20120219822 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloys substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloys substrate in that order. The corrosion resistant layer is an Al—O—N layer. Then, La ions is implanted in the Al—O—N layer by ion implantation process. The atomic percentages of N and O in the Al—O—N gradient layer gradually increase from the bottom of the layer near the aluminum or aluminum alloys substrate to the top of the layer away from aluminum or aluminum alloys substrate by physical vapor deposition. The housing has a higher corrosion resistance. A method for making the housing is also provided. | 08-30-2012 |
20120231292 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes an aluminum or aluminum alloy substrate, a combined gradient layer formed on the substrate, and a decorative layer formed on the combined gradient layer. The combined gradient layer includes a plurality of aluminum-oxygen-nitrogen layers. The atomic percentage of aluminum atoms within the combined gradient layer is gradually decreased from near the substrate to far away the substrate, the atomic percentages of oxygen atoms and nitrogen atoms within the combined gradient layer are gradually increased from near the substrate to far away the substrate. The decorative layer is a non-metallic layer. A method for making the coated article is also described. | 09-13-2012 |
20120231294 | HOUSING FOR ELECTRONIC DEVICE AND METHOD FOR MANUFACTURING - A housing for an electronic device is described. The housing includes a substrate made of metal and an amorphous alloy film formed on the substrate. The bonding layer is a nickel-chromium alloy layer. The amorphous alloy film consists of an amorphous alloy having a super-cooled liquid region of 10 K or more. The amorphous alloy film defines a pattern on an outer surface thereof. The pattern is defined by recesses or protrusions formed on the outer surface. A method for making the housing is also described. | 09-13-2012 |
20120234719 | DEVICE HOUSING AND METHOD FOR MAKING SAME - A device housing having an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order is provided. The corrosion resistant layer is an Al—C—N gradient layer implanted with iridium ions by ion implantation process. The atomic percentages of N and C in the Al—C—N gradient layer both gradually increase from the area near the aluminum layer to the area away from aluminum or aluminum alloy substrate. Therefore the device housing has a high corrosion resistance. A method for making the device housing is also provided. | 09-20-2012 |
20120237755 | STAINLESS STEEL-AND-RESIN COMPOSITE AND METHOD FOR MAKING SAME - A stainless steel-and-resin composite includes a stainless steel part and a resin part bonded to the stainless steel part. The stainless steel part has a porous film resulted from anodizing formed thereon. The porous film defines pores with an average diameter of about 100 nm-500 nm. The resin part is integrally bonded to the surface of the stainless steel part having the porous film, with portions of the resin part penetrating in the pores. The resin part mainly comprises crystalline thermoplastic synthetic resin. | 09-20-2012 |
20120237790 | HOUSING AND METHOD FOR MAKING THE SAME - A housing is provided which includes an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order. The corrosion resistant layer is an Al—O—N layer. Then, Nd ions is implanted in the Al—O—N layer by ion implantation process. The atomic percentages of N and O in the Al—O—N gradient layer gradually increase from nearing the aluminum or aluminum alloy substrate to far away from it. The housing has a higher corrosion resistant. A method for making the housing is also provided. | 09-20-2012 |
20120241184 | DEVICE HOUSING AND METHOD FOR MAKING SAME - A device housing having an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order is provided. The corrosion resistant layer is an Al—O—N gradient layer implanted with iridium ions by ion implantation process. The atomic percentages of N and O in the Al—O—N gradient layer both gradually increase from the area near the aluminum layer to the area away from aluminum or aluminum alloy substrate. Therefore the device housing has a high corrosion resistance. A method for making the device housing is also provided. | 09-27-2012 |
20120241324 | COATED ARTICLE AND METHOD FOR MANUFACTURING SAME - A coated article includes a substrate including a porous surface and an anodic oxidation film. The porous surface defines a plurality of nanopores. The anodic oxidation film is formed on the substrate covering the porous surface by anodic oxidation process. The anodic oxidation film has a plurality of bonding protrusions, and each bonding protrusion is retained in one of the nanopores to improve a binding force between the substrate and the anodic oxidation film. | 09-27-2012 |
20120241353 | DEVICE HOUSING AND METHOD FOR MAKING SAME - A device housing having an aluminum or aluminum alloy substrate, an aluminum layer and a corrosion resistant layer formed on the aluminum or aluminum alloy substrate in that order is provided. The corrosion resistant layer is an Al—O gradient layer implanted with iridium ions by ion implantation process. The atomic percentage of O in the Al—O gradient layer gradually increases from the area near the aluminum layer to the area away from aluminum or aluminum alloy substrate. Therefore the device housing has a high corrosion resistance. A method for making the device housing is also provided. | 09-27-2012 |
20120244375 | COATED ARTICLE HAVING ANTIBACTERIAL EFFECT AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a bonding layer formed on the substrate, a plurality of nickel-chromium-nitrogen layers and a plurality of silver-cerium alloy layers formed on the bonding layer. The bonding layer is a nickel-chromium layer. Each nickel-chromium-nitrogen layer interleaves with one silver-cerium alloy layer. One of the nickel-chromium-nitrogen layers is directly formed on the bonding layer. A method for making the coated article is also described. | 09-27-2012 |
20120244376 | COATED ARTICLE HAVING ANTIBACTERIAL EFFECT AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a bonding layer formed on the substrate, a plurality of nickel-chromium-nitrogen layers and a plurality of copper-cerium alloy layers formed on the bonding layer. The bonding layer is a nickel-chromium layer. Each nickel-chromium-nitrogen layer interleaves with one copper-cerium alloy layer. One of the nickel-chromium-nitrogen layers is directly formed on the bonding layer. A method for making the coated article is also described. | 09-27-2012 |
20120244377 | POROUS METAL ARTICLE AND ABOUT METHOD FOR MANUFACTURING SAME - A porous metal article includes a substrate, a metal layer formed on the substrate, and a porous metal layer formed on the metal layer. The metal layer is a noble metal layer doped with M, M comprising an element selected from a group consisting of aluminum, magnesium and calcium, the content of M in the metal layer is between about 30 wt % and about 70 wt %. The metal layer has a thickness between about 1 micrometer and about 8 micrometers. The porous metal layer has a thickness between about 2 micrometers and about 4 micrometers. | 09-27-2012 |
20120244378 | COATED ARTICLE HAVING ANTIBACTERIAL EFFECT AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a bonding layer formed on the substrate, a plurality of nickel-chromium-nitrogen layers and a plurality of copper-silver-cerium alloy layers formed on the bonding layer. The bonding layer is a nickel-chromium layer. Each nickel-chromium-nitrogen layer interleaves with one copper-silver-cerium alloy layer. One of the nickel-chromium-nitrogen layers is directly formed on the bonding layer. A method for making the coated article is also described. | 09-27-2012 |
20120244379 | COATED ARTICLE HAVING ANTIBACTERIAL EFFECT AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a bonding layer formed on the substrate, a plurality of nickel-chromium-nitrogen layers and a plurality of zinc layers formed on the bonding layer. The bonding layer is a nickel-chromium layer. Each nickel-chromium-nitrogen layer interleaves with one zinc layer. One of the nickel-chromium-nitrogen layers is directly formed on the bonding layer. A method for making the coated article is also described. | 09-27-2012 |
20120244380 | COATED ARTICLE HAVING ANTIBACTERIAL EFFECT AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a bonding layer formed on the substrate, a plurality of nickel-chromium-nitrogen layers and a plurality of copper-zinc alloy layers formed on the bonding layer. The bonding layer is a nickel-chromium layer. Each nickel-chromium-nitrogen layer interleaves with one copper-zinc alloy layer. One of the nickel-chromium-nitrogen layers is directly formed on the bonding layer. A method for making the coated article is also described. | 09-27-2012 |
20120244381 | COATED ARTICLE HAVING ANTIBACTERIAL EFFECT AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a plurality of titanium dioxide layers and a plurality of copper layers formed on the substrate. Each titanium dioxide layer interleaves with one copper layer. One of the titanium dioxide layers forms an outermost layer of the coated article. A method for making the coated article is also described. | 09-27-2012 |
20120244382 | COATED ARTICLE AND METHOD OF MAKING THE SAME - A coated article includes a bonding layer, an iridium layer, a chromium oxynitride layer and a chromium nitride layer formed on a substrate in that order. The substrate is made of die steel. | 09-27-2012 |
20120244386 | COATED ARTICLE HAVING ANTIBACTERIAL EFFECT AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, an antibacterial layer formed on the substrate, and an anti-oxidation layer formed on the antibacterial layer. The antibacterial layer includes a plurality of alternating titanium films and copper films. A method for making the coated article is also described. | 09-27-2012 |
20120251746 | DEVICE HOUSING AND METHOD FOR MAKING THE SAME - A device housing is described. The device housing includes an aluminum alloy substrate and a compound corrosion resistant layer formed on the substrate. The compound corrosion resistant layer includes two crystalline films and a non-crystalline film formed between the crystalline films. One of the crystalline films is formed on the substrate. The crystalline film is a chromium-oxygen-nitrogen film or an aluminum-oxygen-nitrogen film. The non-crystalline film is an aluminum oxide film or a silicon dioxide film. A method for making the device housing is also described. | 10-04-2012 |
20120251747 | HOUSING AND METHOD FOR MANUFACTURING THE SAME - A housing includes a substrate and a metallic coating. The metallic coating is deposited on the substrate. The metallic coating comprises an equal number of alternating first metallic layers and second metallic layers. The first metallic layers have a refractivity that is different from the refractivity of the second metallic layers. | 10-04-2012 |
20120258304 | METHOD FOR MAKING COATED ARTICLE AND COATED ARTICLE - A method for making a coated article includes: providing a substrate; forming a prefabricated layer on a surface of the substrate by vacuum sputtering, the prefabricated layer being a metal layer containing the metal element ‘N’, or an unsaturated oxide layer containing the metal element ‘N’ and ‘M’, the ‘N’ being one or more metals selected from a group consisting of titanium, aluminum, and zinc, the ‘M’ being calcium, barium, or a mixture of calcium and barium; and thermal oxidizing the prefabricated layer to form a color layer on the substrate, the color layer being an oxide layer of the metal element ‘N’, or an oxide layer of the metal element ‘N’ and ‘M’. The color value of the color layer has a L* coordinate between 91 and 98, an a* coordinate between −1 and 1, and a b* coordinate between −2 and 2 in the CIE LAB color system. | 10-11-2012 |
20120263941 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, and a hydrophobic film formed on the substrate. The hydrophobic film is a non-crystalline boron-carbon-nitrogen layer formed by magnetron sputtering. A method for making the coated article is also described. | 10-18-2012 |
20120263942 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, and a hydrophobic film formed on the substrate. The hydrophobic film is a non-crystalline boron-carbon layer formed by magnetron sputtering. The boron-carbon has a chemical formula of B | 10-18-2012 |
20120270035 | PROCESS FOR SURFACE TREATING MAGNESIUM ALLOY AND ARTICLE MADE WITH SAME - A process for treating the surface of magnesium alloy comprises providing a substrate made of magnesium alloy. The substrate is then treated with a chemical conversion treatment agent containing ammonium dihydrogen phosphate and potassium permanganate, to form a chemical conversion film on the substrate. A ceramic coating is then formed on the chemical conversion film using vacuum sputtering. | 10-25-2012 |
20120270066 | METHOD FOR MAKING COATED ARTICLE AND COATED ARTICLE THEREOF - A method for making a coated article includes the steps of: providing a substrate; forming a copper-molybdenum target by a hot isostatic pressing process using copper powder and molybdenum powder; forming a copper-molybdenum alloy layer on the substrate by vacuum sputtering using the copper-molybdenum target. A coated article is also described. | 10-25-2012 |
20120270069 | METHOD FOR MAKING COATED ARTICLE AND COATED ARTICLE THEREOF - A method for making a coated article includes the steps of: providing a substrate; forming a copper-iron target by a hot isostatic pressing process using copper powder and iron powder; forming a copper-iron alloy layer on the substrate by vacuum sputtering using the copper-iron target. A coated article is also described. | 10-25-2012 |
20120275006 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate; and a photochromic layer formed on the substrate. The photochromic layer is a titanium layer doped with metal element ‘M’. The element ‘M’ is selected from a group consisting of nickel, iron, and chromiun. A method for applying the photochromic layer to the substrate is also described. | 11-01-2012 |
20120276349 | ANTI-CORROSION TREATMENT PROCESS FOR ALUMINUM OR ALUMINUM ALLOY AND ALUMINUM OR ALUMINUM ALLOY ARTICLE THEREOF - An aluminum or aluminum alloy article is described. The aluminum or aluminum alloy article includes an aluminum or aluminum alloy substrate, a barrier layer formed on the substrate, a color layer formed on the barrier layer, and an insulation layer formed on the color layer. The barrier layer and the color layer are formed by vacuum sputtering. The barrier layer is a layer of chromium-oxygen-nitrogen, aluminum-oxygen-nitrogen, or titanium-oxygen-nitrogen. The insulation layer is an external layer of the aluminum or aluminum alloy article. | 11-01-2012 |
20120276370 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes an aluminum or aluminum alloy substrate and a compound corrosion resistant layer formed on the substrate. The compound corrosion resistant layer includes a plurality of first non-crystalline films and an equal number of second non-crystalline films. Each the first non-crystalline film interleaves with each the second non-crystalline film. The first non-crystalline film is an aluminum nitride film or an aluminum oxide film. The second non-crystalline film is a silicon nitride film or a silicon dioxide film. A method for making the coated article is also described. | 11-01-2012 |
20120276371 | COATED ARTICLE AND METHOD FOR MANUFACTURING SAME - A coated article includes a substrate and a Si—B—C—N ceramic coating deposited on the substrate by magnetron sputtering process. The Si—B—C—N ceramic coating is an amorphous coating, the weight of elemental Si in the coating is between about 30 wt % and about 60 wt % of the total weight of Si, B, C and N, the weight of elemental B in the coating is between about 10 wt % and about 20 wt % of the total weight of Si, B, C and N, the weight of elemental C in the coating is between about 10 wt % and about 20 wt % of the total weight of Si, B, C and N, the weight of elemental N in the coating is between about 20 wt % and about 30 wt % of the total weight of Si, B, C and N. | 11-01-2012 |
20120276404 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate and an alloy layer formed on the substrate. The alloy layer contains iron, silicon, boron, and phosphor. The iron within the alloy layer has an atomic percentage of about 60%-90%, the silicon has an atomic percentage of about 1%-20%, the boron has an atomic percentage of about 1%-10%, and the phosphor has an atomic percentage of about 1%-10%. A method for making the coated article is also described. | 11-01-2012 |
20120276405 | COATED ARTICLE AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate and an alloy layer formed on the substrate. The alloy layer contains iron, silicon, boron, and carbon. The iron within the alloy layer has an atomic percentage of about 60%-95%, the silicon has an atomic percentage of about 1%-20%, the boron has an atomic percentage of about 1%-10%, and the carbon has an atomic percentage of about 1%-10%. A method for making the coated article is also described. | 11-01-2012 |
20120276407 | PROCESS FOR SURFACE TREATING IRON-BASED ALLOY AND ARTICLE - A process for surface treating iron-based alloy includes providing a substrate made of iron-based alloy. A stainless steel layer is then formed on the substrate by sputtering. A silicon-oxygen-nitrogen layer is formed on the stainless steel layer by sputtering. A boron-nitrogen layer is next formed on the silicon-oxygen-nitrogen layer by sputtering. | 11-01-2012 |
20120276408 | PROCESS FOR SURFACE TREATING IRON-BASED ALLOY AND ARTICLE - A process for surface treating iron-based alloy includes providing a substrate made of iron-based alloy. A chromium layer is then formed on the substrate by vacuum sputtering. A silicon oxide layer, an alumina layer, and a boron nitride layer are formed in that order by vacuum evaporation. | 11-01-2012 |
20120276413 | PROCESS FOR SURFACE TREATING IRON-BASED ALLOY AND ARTICLE - A process for surface treating iron-based alloy includes providing a substrate made of iron-based alloy. A chromium-oxygen-nitrogen layer is then formed on the substrate by sputtering. An iridium layer is formed on the chromium-oxygen-nitrogen layer by sputtering. A boron-nitrogen layer is next formed on the iridium layer by sputtering. | 11-01-2012 |
20130017364 | RESIN COMPOSITION AND COMPOSITE MADE BY SAMEAANM CHANG; Hsin-PeiAACI Tu-ChengAACO TWAAGP CHANG; Hsin-Pei Tu-Cheng TWAANM WANG; Jun-yiAACI Shenzhen CityAACO CNAAGP WANG; Jun-yi Shenzhen City CNAANM LI; Xue-PengAACI Shenzhen CityAACO CNAAGP LI; Xue-Peng Shenzhen City CNAANM LU; Ming-HsuAACI Tu-ChengAACO TWAAGP LU; Ming-Hsu Tu-Cheng TW - A resin composition used to being injection molded to metal to make composite of resin and metal, comprises 40% to 90% by weight of main resin, 5% to 30% by weight of crystallization modifier; and 0% to 40% by weight of filler. The main resin comprises one or more ingredients selected from a group consisting of polyethylene terephthalate and derivatives of polyethylene terephthalate. The resin composition has a low the crystallization temperature and an appropriate crystallization rate. | 01-17-2013 |
20130022835 | COATED ARTICLE HAVING ANTIBACTERIAL EFFECT AND METHOD FOR MAKING THE SAME - A coated article is described. The coated article includes a substrate, a copper layer formed on the substrate, a compound copper-zinc layer formed on the copper layer, and a zinc oxide layer formed on the compound copper-zinc layer. A method for making the coated article is also described. | 01-24-2013 |
20130029094 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article includes a substrate, a first layer formed on the substrate, and a second layer deposited on the first layer. The substrate comprises a first outer surface. The substrate defines a plurality of first convexes in the first outer surface. The first layer comprises a second outer surface away from the first outer surface. The second outer surface of the first layer defines a plurality of second convexes corresponding to the first convexes in the position. The second layer substantially includes substance M, O, and N, wherein M is Al or Si. | 01-31-2013 |
20130029096 | COATED ARTICLE AND METHOD FOR MAKING SAME - A coated article includes a substrate, a first ceramic layer deposited on the substrate, a color layer deposited on the first ceramic layer, and a second ceramic layer deposited on the color layer. The first ceramic layer substantially includes substance M, elemental O and elemental N, wherein M is Al or Si. The color layer substantially includes metal M′, O and elemental N, wherein M′ is elemental Al or Zn. The second ceramic layer substantially includes substance M, elemental O and elemental N, wherein M is Al or Si. | 01-31-2013 |
20130034701 | RESIN COMPOSITION AND COMPOSITE MADE BY SAME - A resin composition used to being injection molded to metal to make composite of resin and metal, comprises 40% to 90% by weight of main resin, 5% to 30% by weight of crystallization modifier; and 0% to 40% by weight of filler. The main resin comprises one or more ingredients selected from a group consisting of one or more ingredients selected from polyamide polymers. The resin composition has a low crystallization temperature and an appropriate crystallization rate. | 02-07-2013 |
20130034734 | RESIN COMPOSITION AND COMPOSITE MADE BY SAME - A resin composition used to being injection molded to metal to make composite of resin and metal, comprises 40% to 90% by weight of main resin, 0% to 30% by weight of reinforcer; and 0% to 40% by weight of filler. The main resin comprises one or more ingredients selected from a group consisting of PCT and derivatives of PCT. The resin composition has a low crystallization temperature and an appropriate crystallization rate. | 02-07-2013 |
20130045664 | SANDBLASTING APPARATUS - A sandblasting apparatus comprises a sand tube for the input of sand particles, a fluid tube for the input of a fluid substance, the fluid tube and the sand tube cooperatively defining an acute angle; a mixing chamber communicating with the sand tube and the fluid tube, a major output tube communicating with the mixing chamber; and an auxiliary output tube including a first part and a second part. The first part communicates with the mixing chamber and the second part. The second part extends towards the major output tube, offset from the axial direction of the first part. The axis of the second part and the axis of the major output tube cooperatively define an acute angle. | 02-21-2013 |
20130056352 | MEDIUM FREQUENCY MAGNETRON SPUTTERING DEVICE - A medium frequency magnetron sputtering device comprises a vacuum chamber, a rotary rack located in the center of the vacuum chamber, a pair of targets located between the inner wall of the vacuum chamber and the rotary rack, an inner partition, and at least one outer partition. The inner partition is located between the inner wall of the vacuum chamber and the pair of targets, the at least one outer partition is moveable and prevents the deposition of any sputtered target atoms on the rotary rack during the cleaning target process. | 03-07-2013 |
20130135083 | ARTICLE-TRACKING SYSTEM AND METHOD USING RFID TAGS - A control unit for tracking articles is positioned approximate to a package and communicates with a reader. The control unit includes a radio frequency identification (RFID) tag, a switch, a clock; and a microcontroller. The switch outputs a first control signal to the microcontroller when the package is opened. The microcontroller reads a real-time clock (RTC) signal from the clock according to the first control signal, and transmits an open status signal and the corresponding RTC signal to the RFID tag. The RFID tag feeds back the open status signal and the corresponding RTC signal to an RFID reader. | 05-30-2013 |
20130135086 | ARTICLE-TRACKING SYSTEM AND METHOD USING RFID TAGS - A control unit for tracking articles is positioned approximate to a package and communicates with a radio frequency identification (RFID) reader. The control unit includes a RFID tag, a storage, a switch, and a microcontroller. The switch outputs a first control signal to the microcontroller if the package is opened, the microcontroller outputs an open status signal and a corresponding real-time clock (RTC) signal to the storage according to the first control signal, the RFID tag sends the open status signal and the corresponding RTC signal from the storage to the RFID reader in due course. | 05-30-2013 |
20130135106 | ANTI-THEFT SYSTEM USING RFID TAGS - A detection unit positioned on a package includes a magnet, a first magnetic switch, a second magnetic switch, a processor, and a clock. The first magnetic switch outputs a first control signal or a second control signal according to magnetic flux density of the magnet. The second magnetic switch outputs a third control signal or a fourth control signal according to the magnetic flux density of the magnet. The first control signal is the same as the third control signal; the second control signal is the same as the fourth control signal. When the processor receives the first control signal and the third control signal at the same time, the processor reads a first real-time clock (RTC) signal from the clock. When the processor receives the second control signal and the fourth control signal at the same time, the processor reads a second RTC signal from the clock. | 05-30-2013 |
20130167703 | TAG HOLDER AND WORKPIECE USING THE SAME - A tag holder includes a top surface, a bottom surface opposite to the top surface, an inner surface, and an outer surface. The outer surface and the inner surface connect to the top surface and the bottom surface. The top surface defines at least one receiving cavity. The inner surface defines at least one groove. RFID tags are held by the tag holder in such a way as to provide ease of reading the tags, and to reduce any electromagnetic interference offered by the object to which the tag holder is attached. | 07-04-2013 |
20130169409 | ANTI-COUNTERFEITING ARTICLE AND METHOD THEREOF - An anti-counterfeiting article includes a first part, a second part, a first radio frequency identification (RFID) tag, and a second RFID tag. The second part of the article is detachably attached to the first part. The first RFID tag is attached to the first part, and the second RFID tag is attached to the second part. The first RFID tag pre-stores a first identification code, the second RFID pre-stores a second identification code, the first identification code is identical with or is related to the second identification code in a some way or according to a predetermined criteria for confirming the status of the article as a certified product. | 07-04-2013 |
Patent application number | Description | Published |
20100259900 | HEAT SINK - A heat sink includes a cooling member to dissipate heat, and a fixing member for mounting fasteners. The cooling member includes a base and a number of fins extending from the base. The cooling member and the fixing member are independently formed, and the fixing member is fixed to a bottom of the base of the cooling member via fixing means. | 10-14-2010 |
20110069438 | COMPUTER ENCLOSURE - A computer enclosure includes a chassis, a mounting frame, two air-guiding members, and a fan. The chassis includes a ventilation area defining a plurality of ventilation through holes. The mounting frame is fixed to the chassis and faces the ventilation through holes. The mounting frame configured for receiving electronic components. The two air-guiding members respectively connect two opposite sides of the mounting frame to the chassis. The two air-guiding members incline relative to the mounting frame and the chassis to form an air passage. The fan is configured for exhausting air passing through the ventilation through holes and the mounting frame. | 03-24-2011 |
20110102998 | DISK DRIVE ASSEMBLY AND ELECTRONIC DEVICE HAVING THE SAME - A disk drive assembly includes a disk drive, a carrier containing the disk drive and a pad. The carrier includes a bottom frame and two opposite sidewalls connected to two opposite edges of the bottom frame. The pad is sandwiched between the disk drive and each of the two sidewalls. | 05-05-2011 |
20110228466 | ELECTRONIC DEVICE - An electronic device includes a housing, at least one expansion card, a motherboard and a fixing member. The motherboard is assembled into the housing, and includes at least one socket member. The socket member defines at least one expansion slot to receive the expansion card. The housing includes a bottom plate and a side plate extending substantially perpendicular to the bottom plate. The fixing member is rotatably connected to the side plate. The fixing member resists an end of the expansion card away from the motherboard, such that the fixing member and the motherboard cooperatively defining an airflow channel therebetween. | 09-22-2011 |
20110235273 | CASE AND ELECTRONIC DEVICE HAVING THE SAME - A case includes a box, a top cover, a first airflow guide member, and a second airflow guide member. The box has an opening sealed by the top cover. The first airflow guide member and the second airflow guide member are fixed on at least one of the top cover and a side plate of the box. The first airflow guide member and the second airflow guide member are spaced from each other, and cooperatively define a guide channel. The box defines an inlet and an outlet communicating with the guide channel. | 09-29-2011 |
20110310567 | HEAT SINK AND ELECTRONIC DEVICE USING THE SAME - An electronic device includes a chassis, a circuit board installed in the chassis, a memory card coupled to the circuit board, and a heat sink for cooling the memory card. The heat sink includes a first cooling plate, a second cooling plate, and a connection member connected between corresponding sides of the first cooling plate and the second cooling plate. A conducting member extends from the connection member, and contacts the chassis. | 12-22-2011 |
20110317359 | FAN DUCT FOR ELECTRONIC COMPONENTS OF ELECTRONIC DEVICE - A fan duct includes a top plate, two side plates extending downward from opposite sides of the top plate, and plural guiding plates extending downward from the top plate. The side plates and the top plates cooperatively define an air inlet and an air outlet. The air inlet and the air outlet are located at another two opposite sides of the top plates, respectively. The guiding plates are located between the side plates and adjacent to the air outlet. Each of the guiding plates forms a guiding face facing the air inlet. The guiding face is obliquely oriented with respect to the top plate. An electronic device incorporating the fan duct is also provided. | 12-29-2011 |
20120002371 | ELECTRONIC DEVICE WITH HEAT DISSIPATION APPARATUS - An electronic device includes an enclosure, a circuit board disposed within the enclosure, a heat sink, and a thermally conductive member. A heat-generating electronic component is fixed to the circuit board. The heat sink is in contact with the heat-generating electronic component. Two ends of the thermally conductive member are respectively fixed to the enclosure and the heat sink. | 01-05-2012 |
20120013188 | POWER SUPPLY SYSTEM AND CONTAINER DATA CENTER INCLUDING THE SAME - A power supply system includes a road electricity generating apparatus, a battery, and a voltage converter. The road electricity generating apparatus is installed in a road. The road electricity generating apparatus includes a number of piezoelectric crystals connected in series to convert potential energy of passing vehicles to electricity. The battery stores the electricity generated by the piezoelectric crystals. The voltage converter converts the electricity of the battery to a desired working voltage for the container data center. | 01-19-2012 |
20120013195 | POWER SUPPLY SYSTEM AND CONTAINER DATA CENTER INCLUDING SAME - A power supply system includes a number of aerogenerators, a number of rectifiers, and a direct current to direct current (DC/DC) converter. A first terminal of each rectifier is connected to a corresponding one of the aerogenerators. A first terminal of the DC/DC converter is connected to second terminals of the rectifiers. A second terminal of the DC/DC converter is connected to a power unit of a container data center. Each rectifier converts the alternating current (AC) generated by the corresponding aerogenerator to a pulsating direct current (DC). The DC/DC converter converts the pulsating DC to a constant voltage DC and supplies power to the power unit. | 01-19-2012 |
20120020011 | DATA CENTER AND SERVER MODULE OF THE SAME - A data center includes a rack mounted with two first slide rails, a server module arranged in the rack. Two second slide rails are mounted on the top and bottom sidewalls of the server module, to mate with the first slide rails, thereby slidably attaching the server module to the rack. | 01-26-2012 |
20120020014 | DATA CENTER AND SERVER MODULE OF THE SAME - A data center includes a server module. The server module includes a housing, and a number of heat-generating elements arranged in the housing. The housing includes a front wall, a back wall, and left and right sidewalls. When the server module runs, cool air comes into the housing through the front wall and the back wall, for cooling the heat elements, then the heated air in the housing is vented out of the housing through the left and right sidewalls by a number of fans. | 01-26-2012 |
20120026676 | DATA CENTER - A data center includes a housing, a number of server modules arranged in the housing, a number of cooling units arranged in the housing and above the server modules, and a fan mounted in the housing near the cooling units. When the data center is operating, heated air is driven to the cooling units by fans, and then the cooled air is driven to enter the server modules. | 02-02-2012 |
20120026679 | DATA CENTER - A data center includes a housing, a number of heat units arranged in the housing, and a fan mounted in the housing. When the data center runs, cool air comes into the housing through the front wall, the back wall, and the bottom wall of the housing, for cooling the heat units. The heated air is vented out of the housing through the top wall by the fan. | 02-02-2012 |
20120031125 | ENERGY-SAVING SYSTEM AND CONTAINER DATA CENTER INCLUDING THE SAME - An energy-saving system includes first and second infrared emitters, first and second infrared receivers, an air conditioner, and a controller. The infrared receivers send out detecting signals when the infrared receivers do not receive infrared signals of the infrared emitters. The controller controls the air conditioner to adjust temperature in a container data center according to the order of receiving the detecting signals of the first infrared receiver and the second infrared receiver. | 02-09-2012 |
20120035769 | SYSTEM AND METHOD FOR CONTROLLING AN ELECTRONIC DEVICE FAN - An electronic device and a method for controlling fan speed of the electronic device include setting a speed range corresponding to a variety of pulse-width modulation (PWM) duty cycles of the fan, and setting a speed variation value of the fan. The method further includes reading the PWM duty cycle and detecting an actual speed of the fan, and adjusting the PWM duty cycle in the PWM duty cycle instruction according to the speed variation value. | 02-09-2012 |
20120035782 | SYSTEM AND METHOD FOR COOLING AN ELECTRONIC DEVICE - An electronic device and a method for controlling heat reflux of the electronic device include setting a speed decrease value and standard temperatures for each of the first device and the second device. The control method further includes detecting a working temperature of the second device using a temperature sensor of the electronic device, if a speed of the second fan is at a full speed. The control method further includes reducing a speed of the first fan according to the speed decrease value, if the speed of the second fan is at the full speed and the detected working temperature exceeds the standard temperature of the second device. | 02-09-2012 |
20120041597 | FAN SPEED CONTROL SYSTEM AND METHOD - A fan speed control system includes a fan, a hardware device, and a basic input/output system (BIOS) module. The BIOS module includes a memory unit, an initial power detecting unit, a searching unit, and a control unit. The memory unit stores a matching table between of initial power ranges and corresponding fan speed control curves. The initial power detecting unit is operable to detect the initial power of the hardware device. The searching unit is operable to read the matching table and search which fan speed control curve matches with the initial power of the hardware device. The control unit is operable to select the matching fan speed control curve to control a speed of the fan. | 02-16-2012 |
20120041614 | FAN SPEED CONTROL SYSTEM AND METHOD - A fan speed control system includes a fan, a hardware device, and a basic input/output system (BIOS) module. The BIOS module includes a memory unit, an edit unit, a searching unit, and a control unit. The memory unit stores a matching table of different hardware device numbers and corresponding fan speed control curves. The edit unit is operable to edit the matching table. The searching unit is operable to read the matching table and search which fan speed control curve matches with the hardware device number of the hardware device. The control unit is operable to select the matched fan speed control curve to control the fan speed of the fan. | 02-16-2012 |
20120041615 | FAN SPEED CONTROL SYSTEM - A fan speed control system includes a fan, a hardware device, a switch code module, and a basic input/output system (BIOS) module. The switch code module is operable to set a switch code. The BIOS module includes a memory unit, a switch code detecting unit, a searching unit, and a control unit. The memory unit stores a matching table of different switch codes and corresponding fan speed control curves. The switch code detecting unit is operable to detect the switch code set by the switch code module. The searching unit is operable to read the matching table and search which fan speed control curve matches with the switch code set by the switch code module. The control unit is operable to select the matched fan speed control curve to control the fan speed of the fan. | 02-16-2012 |
20120043287 | DATA CENTER - A data center includes a rack, and a server module installed in the rack. The server module includes a top surface, a bottom surface, and left and right surfaces. A number of closing members are positioned on the top surface, the bottom surface, and the left and right surfaces of the server module. The closing members resist against the rack to close the interstices between the rack and the server module, to avoid hot air vented from the server module flowing back through the interstice. | 02-23-2012 |
20120045982 | CONTAINER DATA CENTER - A container data center includes a container, a partition member received in the container, and a number of non-powered turbines installed on the top wall of the container. The container includes a top wall, a bottom wall opposite to the top wall, and a sidewall connected between the top wall and the bottom wall. The sidewall defines a number of vents. The partition member includes a first partition plate adjacent to the top wall of the container and a second partition plate extending down from sides of the first partition plate to connect to the bottom wall of the container. An air channel is formed between the partition member and the container. The cool air outside the container can flow into the air channel through the number of vents, and the hot air of the air channel flows out of the container through the number of non-powered turbines. | 02-23-2012 |
20120055940 | ENCLOSURE OF ELECTRONIC DEVICE - An enclosure of an electronic device includes a bottom wall and a sidewall. The sidewall includes at least two non-coplanar portions. Each of the non-coplanar portions defines a plurality of through holes for heat dissipation. | 03-08-2012 |
20120063082 | DATA CENTER - A data center includes a housing and a number of server module assemblies received in the housing. Airflow interspaces are formed between neighboring server module assemblies, and between the two outmost server module assemblies and corresponding sidewalls of the housing. The airflow interspaces are alternately used for cold aisles and hot aisles. An inside of each server module is communicated with one of the hot aisles and one of the cold aisles at opposite sides of the server module. A number of cooling units are installed in the housing over the server module assemblies. A number of fans are installed in the housing to draw hot air from the hot aisles to flow through the corresponding cooling units to be cooled, and the cooled air flow into the corresponding cold aisles, thereby creating air differences in air pressure between the cold aisles and the hot aisles. | 03-15-2012 |
20120063083 | SERVER SYSTEM WITH HEAT DISSIPATING DEVICE - An exemplary server system includes a server cabinet, two rows of racks arranged in the server cabinet, a number of servers mounted in the racks and a heat dissipating device. The server cabinet includes two side plates parallel to each other. The servers of each row are evenly distributed between the side plates. A channel is defined between the two rows of racks. The heat dissipating device includes an air conditioner arranged over the racks for generating cooling air and an air guiding mechanism. The air conditioner defines a number of apertures facing the passage. The guiding mechanism includes a number of tubes received in the passage and respectively coupled to the apertures of the air conditioner. Each of the tubes defines a number of air outlets for exhausting the cooling air towards the servers. | 03-15-2012 |
20120063086 | ELECTRONIC DEVICE - An electronic device includes a chassis, a blower, a first block, and a second block. The chassis includes a top surface and a bottom surface parallel to the top surface. The blower is received in the chassis. The blower includes an upper surface, a lower surface parallel to the upper surface, and an outlet defined between the upper surface and the lower surface. The first block is disposed between the upper surface and the top surface to seal a gap between the upper surface and the top surface. The second block is disposed between the lower surface and the bottom surface to seal a gap between the lower surface and the bottom surface. | 03-15-2012 |
20120067552 | CONTAINER DATA CENTER - A container data center includes a container having a top wall and a number of sidewalls, a water supply pipe arranged over the top wall, a gutter disposed adjacent to a bottom of the container, a cistern communicating with the gutter, a water pump connected between the cistern and the water supply pipe, and a cooler mounted to an end of the water supply pipe connected to the water pump. An inlet and an outlet of the water pump are correspondingly connected to the cistern and water supply pipe. The water supply pipe defines a number of water discharge holes. | 03-22-2012 |
20120069512 | POWER SUPPLY SYSTEM AND CONTAINER DATA CENTER INCLUDING SAME - A power supply system provides power to a container data center. The power supply system includes a solar energy panel, to receive solar energy and output a direct current (DC) voltage. A direct current to altering current (DC/AC) voltage converting unit is connected to the solar energy panel, to receive the DC voltage from the solar energy panel and converts the received DC voltages to an AC voltage, and outputs the converted AC voltage to the container data center. | 03-22-2012 |
20120075794 | CONTAINER DATA CENTER WITH POWER SUPPLY SYSTEM - A container data center includes a power storage device, a power distribution device, a number of server systems, a portable container, and a number of power supply systems each connected between two opposite server systems in two rows. The power supply system includes a blower, a number of wind turbines, and a generator. Cooled air is blown to rotate the wind turbines by the blower, to generate mechanical energy. The generator receives the mechanical energy from the wind turbines and converts the received mechanical energy to electricity, and provides the converted electricity to the power storage device or the power distribution device. | 03-29-2012 |
20120092831 | HEAT DISSIPATION STRUCTURE FOR PORTABLE ELECTRONIC DEVICE - A heat dissipation structure for removing heat generated by electronic elements of a portable electronic device includes a base unit for mounting the electronic elements thereon and a heat dissipation unit detachably mounted on the base unit. The heat dissipation unit includes a base board and a number of thermal fins connected to the base board. The base board defines a receiving space therein, and a depth of the receiving space is larger than a thickness of each electronic element. The base board covers the electronic elements and the receiving space receives the electronic elements therein, such that heat generated by the electronic elements is transmitted to the thermal fins through the base board and dissipated by the thermal fins. | 04-19-2012 |
20120097375 | FAN SYSTEM FOR ELECTRONIC DEVICE - A fan system for dissipating heat generated in an electronic device includes a processor unit, a speedometer unit connected to the processor unit, a governor unit connected to the processor unit, and a fan group including at least two fans. Each fan is connected to the speedometer unit and the governor unit and has at least two motors. The processor unit controls all the motors to rotate and thereby drives all the fans to rotate through the governor unit, and detects rotation speeds of all the motors through the speedometer unit. When a motor malfunctions, the processor unit adjusts the rotation speeds of all other motors to ensure that the fan having the malfunctioning motor and other fans are respectively provided with equal power and then rotate in equal speeds. | 04-26-2012 |
20120100793 | CONTAINER DATA CENTER - A container data center includes a housing for arranging servers therein, and an air purifier. The air purifier includes a hollow filtering barrel, an air outlet pipe connected between the filtering barrel and the housing, and an exhaust fan. The exhaust fan draws air from the filtering barrel through the air outlet pipe and exhausts air into the housing. | 04-26-2012 |
20120107120 | COOLING FAN AND ROTOR OF COOLING FAN - A cooling fan includes a frame and a rotor received in the frame. The rotor includes a hub, blades extending outwardly and radially from the hub, and a cover plate connected with the hub. The hub includes a top wall and a sidewall extending from a circumference of the top wall. The top wall of the hub defines a plurality of blind holes on an outer surface thereof, and the blind holes are shaded by the cover plate. | 05-03-2012 |
20120111749 | DEDUSTING APPARATUS AND CONTAINER DATA CENTER INCLUDING THE SAME - A dedusting apparatus is for a container data center. The container data center includes a mobile container and a number of servers mounted inside the container. The dedusting apparatus includes a sensor, an air shower, a timer, and a controller. The sensor is mounted at an entrance of the container to output a first sensed signal when a user enters the container through the entrance. The timer starts timing according to the first sensed signal. When the timer reaches a preset time, the timer outputs a time signal. The controller activates the air shower according to the first sensed signal and deactivates the air shower according to the time signal. | 05-10-2012 |
20120118553 | HEAT VENTILATION APPARATUS - An exemplary heat ventilation apparatus includes a server system having servers, a temperature sensor, a blower unit and a controlling unit electrically connected to the temperature sensor and the blower unit. The temperature sensor is mounted on the server system for sensing a temperature of an interior of the server system. The blower unit is adapted for drawing hot air from the server system to warm buildings. The controlling unit outputs different signals to turn on or turn off the blower unit according to different temperatures of the interior of the server system. | 05-17-2012 |
20120127654 | COMPUTER SYSTEM AND HEAT SINK - A computer system includes an enclosure having an air intake, a heat sink and an electronic element. The heat sink includes a first heat dissipating portion, a second heat dissipating portion, and a third heat dissipating portion interconnecting the first and second heat dissipating portions. Each of the first heat dissipating portion, second heat dissipating portion, and third heat dissipating portion includes a number of fins and passages formed between each two adjacent fins. The passages of the first heat dissipating portion face toward the air intake. A space is maintained between the first heat dissipating portion and the second heat dissipating portion, and the electronic element is mounted in the space. | 05-24-2012 |
20120134105 | DATA CENTER - A data center includes a housing, a number of server modules arranged in the housing, a number of cooling units arranged in the housing and above the server modules, a fan mounted in the housing near the cooling units, and a number of directing plates arranged in the housing and spaced from the inner surfaces of the housing. When the data center is operating, heated air from the server modules is driven into the apace between the inner surfaces of the housing and the directing plates and then to the cooling units by the fan, and then the cooled air is driven to enter the server modules. | 05-31-2012 |
20120134110 | SERVER CABINET AND SERVER SYSTEM USING THE SAME - A server cabinet adapted for receiving servers therein includes a top plate and a bottom plate opposite to the top plate, a left side plate and a right side plate connecting with the top and bottom plates respectively, and a curtain assembly disposed at a front side of the server cabinet. The curtain assembly includes a pivot and a curtain coiled on the pivot. The curtain assembly defines through holes therein. The curtain is capable of spreading out from the pivot toward the bottom plate to thereby cover the front side of the server cabinet. | 05-31-2012 |
20120140407 | CONTAINER DATA CENTER AND VENTILATING SYSTEM THEREOF - An exemplary container data center includes a container, servers received in the container; and a ventilating system for cooling the servers. The ventilating system includes a filter, an exhaust pipe and a blower. The filter includes a chamber and filtering fluid received in the chamber for dissolving dust in ambient air. The chamber defines an air inlet for entering the ambient air and an air outlet. The exhaust pipe has one end coupled to the air outlet of the filter and another end communicating an interior of the container. The blower drives the ambient air out of the filter to flow along the exhaust pipe to the container to cool the servers. | 06-07-2012 |
20120140408 | COMPUTER HAVING AIRFLOW GUIDING DEVICE - A computer includes a main board, a plurality of electrical element mounted on the main board and a airflow guising device. The airflow guiding device includes a metallic cover and two flexible films. The cover includes a top plate and two side plates extending downward from opposite edges of the top plate. The top plate and the side plates cooperatively define a guiding channel. Each side plate is spaced a distance from the main board to form a clearance space. The flexible films are correspondingly attached to the side plates. Each flexible film includes a connecting portion and a shielding portion. The connecting portion is attached on the corresponding side plate. The shielding portion extends from an edge of the corresponding side plate to the main board and shields the clearance space. | 06-07-2012 |
20120175079 | HEAT DISSIPATION DEVICE HAVING CENTRIFUGAL FAN - A heat dissipation device includes a centrifugal fan, a fan duct and a fin assembly. The centrifugal fan has an air outlet. The fan duct is fixed to the air outlet. The fan duct includes a plurality of guiding plates spaced from each other. A channel is defined between every two neighboring guiding plates. Each of the guiding plates includes a near end near the air outlet and a far end opposite to the near end away from the air outlet. The widths of the channels at the near ends are larger comparing to the portions of the air outlet when having smaller quantity of airflow, and are smaller comparing to the portions of the air outlet when having large quantity of airflow. Widths of the channels at the far ends are equal to each other. The fin assembly is positioned at the far ends of the guiding plates. | 07-12-2012 |
20120319545 | ENCLOSURE OF ELECTRONIC DEVICE - An enclosure includes a main body with a sidewall. The sidewall defines a first opening. A three dimensional shaped mesh cover is attached to the sidewall to cover the first opening. The mesh cover defines a second opening aligning with the first opening. | 12-20-2012 |
20120326444 | HYDROPOWER GENERATING SYSTEM - A hydropower generating system includes a pump, a container data center, and a hydropower generating module. The container data center includes a number of cooling pipes. Each of the cooling pipes includes a water intake and a water outlet. The water outlet is connected to the pump. The pump is for pumping water from a source to the cooling pipes. The water flows along the pipes to dissipate the heat generated by the container data center. The hydropower generating module includes a turbine and a generator. The turbine is arranged under the water outlet. The hydropower generating module is electrically connected to the pump. The water flowing out from the water outlets is able to turn the turbine, causing the turbine to drive the generator to generate electrical power, the generated electrical power is supplied to the pump. | 12-27-2012 |
20130045114 | FAN CONTROL UNIT AND METHOD - A fan control unit measures the rotating speeds of the first and second fans to calculate the relative work intensities of the two fans. The control unit determines whether a difference between the first work intensity and the second work intensity is within a predetermined range. If the difference between the first work intensity and second work intensity is not in the predetermined range, the control unit adjusts a duty cycle of a pulse signal output to one of the first and second fans to change the rotating speed of one of the first and second fans to bring the difference between the first work intensity and the second work intensity within the predetermined range. | 02-21-2013 |
20130100588 | COMPUTER WITH FAN SPEED CONTROL SYSTEM FOR SYNCHRONIZING SPEEDS OF SYSTEM FAN AND POWER FAN - A computer includes a power supply for providing electrical power, a system fan, a power fan for cooling the power supply, and a fan speed control system. The fan speed control system is configured to synchronize a rotation speed of the system fan and the power fan. | 04-25-2013 |
20130115870 | CHASSIS OF ELECTRONIC DEVICE - A chassis includes two opposite sidewalls, a first vent wall connected between corresponding ends of the sidewalls, and a second vent wall connected between the sidewalls and close to an inner surface of the first vent wall. The first vent wall defines a number of first vents extending along a first direction. The second vent wall defines a number of second vents extending along a second direction different from the first direction. | 05-09-2013 |
20130118718 | HEAT PIPE ASSEMBLY - A heat pipe assembly used to transfer heat generated by an electronic component to a heat sink includes a first heat pipe, a second heat pipe, and a heat conducting member. A first end of the first heat pipe is connected to the electronic component. A second end of the first heat pipe is connected to the heat conducting member by welding. A first end of the second heat pipe is connected to the second heat sink. A second end of the second heat pipe is connected to the heat conducting member by welding. | 05-16-2013 |
20130126214 | FIXING APPARATUS FOR HEAT SINK - An apparatus for fixing a heat sink having a bottom plate includes a circuit board, two fasteners, and two blocks. The circuit board defines two through holes. The fasteners respectively extend through the bottom plate of the heat sink for fixing the heat sink to the circuit board. Each of the fasteners includes two spaced feet to extend through a corresponding one of the through holes and engage with a bottom of the circuit board. Each of the blocks is inserted into a space between the feet of a corresponding one of the fasteners after the feet extend through the corresponding through hole, to prevent the feet from deforming and disengaging from the circuit board. | 05-23-2013 |
20130128436 | SERVER WITH BACK PLANE MODULE - A server includes a chassis, a back plane module mounted in the chassis, and a number of electronic component mounted to the back plane module. The back plane module includes a first back plane adjacent to a top plate of the chassis, a second back plane adjacent to a bottom plate of the chassis, and a cable connecting the first and second back planes. The second back plane is offset from the first back plane so as to form a passage for a cooling airflow between the first and second back planes. | 05-23-2013 |
20130135818 | CONTAINER DATA CENTER AND METHOD FOR REDUCING NOISE IN THE CONTAINER DATA CENTER - A container data center includes a portable container, server cabinets, a decibel-meter, fans to cool the server cabinets, fan controlling systems to speed up or slow down the fans, an air conditioner to adjust a temperature inside the container, and a temperature adjustment system to receive a decibel level sensed by the decibel-meter. The temperature adjustment system compares the value of the received decibel level with a preset value. If the value of the received decibel level is greater than the preset value, the temperature adjustment system decreases the temperature of air outputted by the air conditioner, thereby the fan controlling systems slowing down the fans. If the value of the received decibel level is not greater than the preset value, the temperature adjustment system increases the temperature of the air outputted by the air conditioner, thereby the fan controlling systems speeding up the fans. | 05-30-2013 |
20130135840 | CONTAINER DATA CENTER - A container data center includes a container, a shield, a screen, and a hollow fixing frame. The container includes a sidewall defining a vent. The shield and the fixing frame are selectively mounted to the sidewall of the container such that the vent is covered by the shield or the screen sandwiched between the sidewall and the fixing frame. | 05-30-2013 |
20130137357 | CONTAINER DATA CENTER AND METHOD FOR CONTROLLING AIRFLOW INTO THE CONTAINER DATA CENTER - A container data center includes a portable container, a number of server cabinets accommodated in the container, a shutter set on a side wall of the container, a temperature sensor to sense a temperature of air outside the container, a humidity sensor to sense a humidity of air outside the container, and a controlling device to receive the sensed temperature and the sensed humidity. The controlling device compares the sensed temperature with a preset temperature and compares the sensed humidity with a preset humidity range. When the sensed temperature is less than the preset temperature and the sensed humidity is in the preset humidity range, the controlling device opens the shutter. When the sensed temperature is higher than the preset temperature or the sensed humidity is outside of the preset humidity range, the controlling device closes the shutter. | 05-30-2013 |
20130140002 | COOLING SYSTEM FOR ELECTRONIC DEVICE - A cooling system for cooling an electronic device includes a heat exchanger, a first refrigerant pipe, a pump, a second refrigerant pipe, and a cooling apparatus. The heat exchanger, the first refrigerant pipe, the pump, and the second refrigerant pipe are connected in that order to form a first circulation system. The cooling apparatus is connected between the pump and the second refrigerant pipe. The cooling apparatus is exposed outside the electronic device. When the temperature outside the electronic device is higher than the temperature in the electronic device, the first circulation system cools the electronic device. When the temperature outside the electronic device is lower than the temperature in the electronic device, the refrigerant flows through the cooling apparatus to be cooled. | 06-06-2013 |
20130141352 | ELECTRONIC DEVICE WITH TOUCH SENSITIVE DISPLAY AND TOUCH SENSITVIE DISPLAY UNLOCKING METHOD THEREOF - An electronic device includes a touch sensitive display configured to receive touches from a user and a processing unit. The processing unit controls a plurality of icons to be displayed when the touch sensitive display is in a locked state, detects whether a sequence of touches on certain icons of the plurality of icons matches one of at least one predefined sequences, and unlocks the touch sensitive display if the detection module detects that the sequence of touches matches a predefined sequence. | 06-06-2013 |
20130141353 | METHOD FOR UNLOCKING ELECTRONIC DEVICE AND ELECTRONIC DEVICE USING THE SAME - A method for unlocking an electronic device is provided. The electronic device includes a storage unit, the storage unit stores a relationship table which defines a number of touch modes, each touch mode includes touch icons needing to be touched, touch duration corresponding to each touch icon, a touch sequence of the touch icons and a touch order of each touch icon in the touch sequence. The method includes: selecting an touch mode from the touch modes defined in the relationship table when in a situation where the electronic device needs to be unlocked; displaying the touch icons corresponding to the touch mode on the touch screen; determining whether touches on the touch icons match the requirements of the selected touch mode; and unlocking the electronic device if the touches on the touch icons match the requirements of the selected touch mode. | 06-06-2013 |
20130145189 | SERVER SYSTEM CAPABLE OF DECREASING POWER CONSUMPTION AND METHOD THEREOF - A server system and a control method applied therein are illustrated. The server system includes a server cabinet, servers accommodated in the server cabinet, a cooling fan module for cooling the servers, a thermal sensor detecting an ambient temperature in the server cabinet, and a controller. The controller includes a speed control module controlling a rotation speed of the fan module according to the ambient temperature and any overloading of servers, an obtaining module receives power consumed values of the servers, a determining module determining if a ratio of the highest power consumed value to the lowest power consumed value is greater than a predetermined value, and an executing module reducing the clocking speed of the server having the highest power consumed value if the determining module determines that the ratio of the highest power consumed value to the lowest power consumed value is greater than the predetermined value. | 06-06-2013 |
20130147331 | SERVER CABINET - A cabinet includes a housing, two slide rails, and a door. The housing includes two opposite side plates, a top plate connected between tops of the side plates, and a bottom plate connected between bottoms of the side plates. The slide rails are respectively fixed to the top plate and bottom plate, and connected between the side plates. The door is foldable and includes a number of door pieces. Top and bottom ends of the door piece are slidably mounted to the corresponding slide rails. | 06-13-2013 |
20130148284 | ELECTRONIC DEVICE WITH AIR DUCT - A air duct includes a top wall and two sidewalls extending down from two opposite sides of the top wall. A number of partition plates extend down from the top wall between and parallel to the sidewalls. Every adjacent two of the partition plates and the sidewalls cooperatively bound an airflow channel. | 06-13-2013 |
20130149137 | FAN - A fan assembly includes a fan and a screen. The fan includes a bracket, and an impeller installed in the bracket. The bracket includes two opposite sidewalls each defining an opening aligning with the impeller. A hollow fixing frame is mounted to an outer surface of one of the sidewalls surrounding four sides of the corresponding opening. The fixing frame includes a receiving portion surrounding three of the four sides of the opening, and a cover detachably connected to distal ends of the receiving portion, to surround the last side of the opening. The screen is received in the fixing frame and aligns with the openings. | 06-13-2013 |
20130155613 | ELECTRONIC DEVICE WITH AIR DUCT - An electronic device includes a casing, a motherboard installed in the casing, a number of components positioned on the motherboard, a number of fans and vents aligning with the components, and an air duct installed on the motherboard so as to enclose the components. The casing includes a cover defining an opening. The air duct includes a removable top plate covering the opening. | 06-20-2013 |
20130155622 | ELECTRONIC DEVICE WITH HEAT DISSIPATION APPARATUS - A heat dissipation apparatus for an electronic component mounted in a casing of an electronic device includes a first heat sink attached to the component, a second heat sink located outside the casing, and a heat pipe connected between the first heat sink and the second heat sink. The heat pipe contacts the casing. | 06-20-2013 |
20130167657 | FAN TESTING APPARATUS AND TESTING METHOD - A fan testing apparatus includes an air duct defining an air inlet and air outlet, and at least one anemometer mounted at the air outlet. The fan is received in the air duct to generate airflow in the air duct via the inlet and out of the air duct via the outlet, and the at least one anemometer is used to measure wind speed at the outlet. | 07-04-2013 |
20130168062 | WIND SHIELDING DEVICE AND HEAT DISSIPATION DEVICE USING THE SAME - A wind shielding device for a heat dissipating device of an electronic device includes a case defining an air outlet communicating with an exhaust hole of a blower, a plurality of blades rotatably received in the case, a retainer base fixed in the case, and a retainer element mounted on the retainer base. When wind blowing outwards from the exhaust hole spins the blades, the blades knock the retainer element out of the way, the retainer element is rotated and allows the blades to continuously rotate. When air from the outside attempts to enter the exhaust hole, the blades are spun to contact the other side of the retainer element, and the retainer element prevents further rotation in that direction. | 07-04-2013 |
20130170137 | SERVER WITH GUIDING AIR FLOW STRUCTURE - An electronic device includes a chassis, a number of electronic components, and at least one block. The at least one block is fitted between two of the electronic components. At least one air flow passage is defined under the at least one block to direct air flow to enter between the two electronic components. | 07-04-2013 |
20130170518 | FAN TESTING APPARATUS AND TESTING METHOD - A fan testing apparatus includes an air duct defining opposite air inlet and air outlet, a heating member received in the air duct, a first thermometer attached to the heating member, and a second thermometer positioned at the inlet of the air duct. The fan generates airflow in the air duct through the inlet and out of the air duct through the outlet to cooling the heating member. A surface temperature of the heating member is measured by the first thermometer. An environmental temperature at the air inlet is measured by the second thermometer. | 07-04-2013 |
20130195688 | HOT PLUG FAN AND ELECTRONIC DEVICE HAVING THE SAME - An electronic device includes a chassis and a hot plug fan. The chassis includes a top plate defining a hole. The hot plug fan includes a main body and two handles rotatably connected to a top of the main body. The main body is received in the chassis through the hole, with the handles exposed out of the hole. | 08-01-2013 |
20130199769 | HEAT SINK ASSEMBLY - A heat sink assembly includes a heat sink and a number of protecting members. The heat sink includes a number of parallel fins. The fins form a fin assembly including a number of lengthwise corners at lateral sides of the fin assembly. Each lengthwise corner is covered by one of the protecting members. Each protecting member includes a first stop plate and a second stop plate engaging with two adjacent sides of the fin assembly, and a number of pairs of connecting plates between the first and second stop plates, at opposing ends of the first and second stop plates. A slot is bounded by each pair of connecting plates. The corners of the fins on upper and lower portions of the fin assembly engage and are retained by the slots in upper and lower portions of the protecting members. | 08-08-2013 |
20130206380 | HEAT SINK ASSEMBLY - A heat sink assembly includes a heat sink, a base, and a number of fasteners. The heat sink includes a bottom plate defining a number of holes. The base is mounted to a bottom of the bottom plate. A number of through holes aligning with the holes of the bottom plate are defined in the base. A number of tapered guiding surfaces is formed on a bottom of the base. Each guiding surface bounds a corresponding one of the through holes. A diameter of each guiding surface gradually increases in a downward direction, facilitates the entry of securing screws. The fasteners are mounted to the heat sink. Bottoms of the fasteners are respectively extended through the holes of the heat sink and received in the through holes of the base. An internally-threaded hole is defined in a bottom of each fastener. | 08-15-2013 |
20130208427 | GROUNDING MECHANISM FOR HEAT SINK ASSEMBLY - A ground mechanism for a heat sink is attached to a circuit board. The ground mechanism includes a first latching member, a second latching member, a conductive member, and an elastic member. The first latching member and a second latching member latch the heat sink on the circuit board. The conductive member is formed on the circuit board. The elastic member is sandwiched between the first latching member and the heat sink. The elastic member electrically connects the first latching member to the heat sink, and the second latching member electrically connect the first latching member to the conductive member to conduct electromagnetic charges from the heat sink to a grounding pin of the circuit board. | 08-15-2013 |
20130210338 | AIR BLOCKING APPARATUS - An air blocking apparatus is mounted to a server to replace a heat sink. The heat sink includes a base plate, and a fin assembly formed on the base plate. The fin assembly comprises a number of parallel fins. An air passage is defined in every two neighboring fins. The air blocking apparatus includes a bottom plate and a blocking plate perpendicularly extending up from the bottom plate. The blocking plate is rectangular, with a width and a height of the blocking plate respectively equal to a width and a height of the fin assembly of the heat sink. The blocking plate defines a vent. An area of the vent is equal to a sum of cross sectional areas of all of the air passages taken along a direction perpendicular to the board plate. | 08-15-2013 |
20130230411 | COOLING SYSTEM - A cooling system includes a cooling fan and a BIOS (Basic Input Output System) chip. The cooling fan includes a cable and a control chip. The control chip stores a manufacturer's name or a manufacturer's code of the cooling fan. The BIOS chip stores a plurality of manufacturers' names and/or manufacturers' codes and a plurality of control curves. The BIOS chip reads the manufacturer's name and/or the manufacturer's code stored in the control chip through the cable and the connector, and transmits a control curve corresponding to the manufacturer's name and/or the manufacturer's code to the control chip. The control chip controls the cooling fan according to the control curve. | 09-05-2013 |
20130231038 | CONTAINER OF CLOUD COMPUTING SYSTEM - A container of a cloud computing system includes a housing defining a chamber, an airflow inlet and an airflow outlet, a fan fixed in the airflow inlet, and a dust gauze covering the airflow inlet. The airflow inlet and the airflow outlet both communicate with the chamber. The fan is capable of rotating clockwise or counter-clockwise by a controlling device. During the fan rotates clockwise, the fan draws exterior air into the chamber through the airflow inlet, and then air vents out of the chamber via the airflow outlet. During the fan rotates counter-clockwise, the fan draws the air in the chamber blow to the dust gauze via the airflow inlet to clear dust on the dust gauze. | 09-05-2013 |
20130233530 | CONTAINER MODULE WITH COOLING SYSTEM - A container module includes a first container, a second container, a first passage and a second passage, a first fan and a second fan. The first passage and the second passage each are connected between the two containers. The two fans are installed at corresponding two junctions in the corresponding two passages, which can control the drawing and exhausting of the airflow between the two containers. | 09-12-2013 |
20130240196 | CONTAINER WITH COOLING SYSTEM - A container includes a main body, a number of computer servers, a number of heat dissipating fins, a first group of fans and a second group of fans. Two frames are symmetrically mounted in the main body. The frames divide the main body to a middle airflow channel and side airflow channels. The computer servers are positioned in the frames. The heat dissipating fins are positioned on the main body. A number of flow spaces are defined between the heat dissipating fins. A first group of fans are positioned in the middle airflow channel, and a second group of fans are positioned in the side airflow channels. The first group of fans draws the airflow into the middle airflow channel to pass through the computer servers, and the second group of fans draws the airflow passing through the computer servers to the heat dissipating fins. | 09-19-2013 |
20130252536 | CONTAINER WITH COOLING SYSTEM - A container includes an air conditioner, a double group of air conductor sheets and a number of racks. The air conditioner includes at least one air outlet. The double group of air conductor sheets is positioned in the at least one air outlet. The double group of air conductor sheet includes a first group of air conductor sheets and a second group of air conductor sheets oriented in different directions. The double group of air conductor sheets is positioned between the racks. The first group of air conductor sheets rotates toward the racks positioned at two sides, and the second group of air conductor sheets rotates toward the racks positioned at two ends. | 09-26-2013 |
20130259722 | FAN - A fan includes an interface connected to a motherboard, a fan motor, a battery, a switch connected to the battery, and a controller connected to the interface, the fan motor, the switch, and the battery. The controller includes a storage unit to store a preset timing value, a timer to count a working time of the fan motor after the motherboard is powered off, and a control unit. When the motherboard is powered on, the control unit receives a voltage from the motherboard and outputs the voltage to the fan motor. When the motherboard is powered off, the control unit controls the switch to be turned on. The battery provides a voltage to the fan motor. The control unit controls the switch to be turned off when a working time of the fan motor reaches the preset timing value. | 10-03-2013 |
20140063746 | ELECTRONIC DEVICE WITH HEAT DISSIPATION ASSEMBLY - An electronic device includes a sidewall, a circuit board arranged on the sidewall, an electronic component set on a side of the circuit board opposite to the sidewall, and a heat dissipation assembly connected between the sidewall and the circuit board. | 03-06-2014 |