Class / Patent application number | Description | Number of patent applications / Date published |
427383100 | Metal coating | 46 |
20080233296 | Method Of Applying A Relatively Thick Protective Coating To A Sheet Metal Substrate - A sheet metal substrate is provided with a raised border which surrounds an area to be coated with a hardfacing. A slurry comprising a highly alloyed powder and a PVA binder is placed in the cavity defined by the border and the plate. The border has a height which exceeds the desired thickness of the finished coating, which is in excess of 2.0 mm by an amount equal to the shrinkage expected during curing and fusing steps. | 09-25-2008 |
20080268159 | Production Method of Precious Metal Catalyst - This invention was conceived to provide a method capable of synthesizing a precious metal catalyst the cluster size of which is controlled and which does not contain impurities. | 10-30-2008 |
20090081372 | CONDUCTOR PASTE FOR RAPID FIRING - The present invention provides a conductor paste for rapid firing that is applied to a ceramic green sheet and is fired along with the green sheet under high-rate temperature rise conditions at a high heating rate of at least 600° C./hr from room temperature to the maximum firing temperature. The paste includes as a conductor-forming powder material: a conductive metallic powder comprising, as a main component, nickel powder; and barium titanate ceramic powder with a mean particle diameter of 10 nm to 80 nm as an additive. The ceramic powder content is 5 to 25 mass parts per 100 mass parts of the conductive metallic powder. | 03-26-2009 |
20090087570 | METAL PATTERN FORMING METHOD - A metal pattern forming method includes the steps of: applying one of a metal salt solution and an acetylene compound solution onto the substrate, the acetylene compound solution containing an acetylene compound expressed by a general formula of: | 04-02-2009 |
20090162556 | METHODS FOR MAKING TAPE CAST BARRIER COATINGS, COMPONENTS COMPRISING THE SAME AND TAPES MADE ACCORDING TO THE SAME - Methods for making tape cast barrier coatings involving making a slurry including at least a solvent and a barrier coating composition, depositing the slurry onto a carrier film in a tape casting machine to produce a cast slurry, evaporating the solvent from the cast slurry to produce a tape including the carrier film, and the barrier coating composition, and removing the carrier film from the tape to produce a tape cast barrier coating. | 06-25-2009 |
20090246389 | High Temperature Resistant Coating Compositions - An aqueous phosphoric bonding solution consists essentially of phosphoric acid, a source of magnesium ions, and a leachable corrosion inhibitor. The bonding solution is stable with respect to inorganic metal particles, such as aluminum, which are admixed to the bonding solution for the preparation of a coating slurry. Metal parts coated with the coating compositions have very satisfactory properties such as heat and corrosion resistance. | 10-01-2009 |
20100021644 | Formaldehyde free binder compositions for fibrous materials - Compositions for binding organic or inorganic fibers is described. The compositions may include an aqueous solution having a pH of about 4.5 or more. The aqueous solution may include a polycarboxy polymer that is about 10%, by wt., to 100%, by wt., of a butenedioic acid or butenedioic anhydride; and a polyol. The compositions can maintain a pH of about 5 or more after being cured into a thermoset plastic with the fibers. Processes for preparing a binder composition for organic or inorganic fibers are also described. The processes may include providing an aqueous solution of polycarboxylic acid polymers, where the polymers comprise about 10%, by wt., to 100%, by wt., of a butenedioic acid or butenedioic anhydride; adding a polyol to the aqueous solution; and maintaining the pH of the aqueous solution at about 5 or more. | 01-28-2010 |
20100092680 | PROCESS FOR PRODUCING METAL CLAD LAMINATE - With respect to a metal clad laminate wherein a metal layer is to be formed for at least a part of a surface of a flexible polymer film, it becomes clear that it is able to suppress any warpage of the laminate by performing a heat treatment and then a cooling treatment under a state of loading a tension within a range capable of maintaining the laminate to be a flat configuration consistently during the period from heating to cooling. Moreover, it becomes clear that it is able to suppress the warpage without occurrences of an elongation deformation and/or a fracture for the obtained metal clad laminate, by controlling a tension to be loaded at the period of the heat treatment as between 0.03% and 0.3% of a tensile strength in a direction of the tension for the substratum polymer film. | 04-15-2010 |
20100092681 | Layered Composition and Processes for Preparing and Using the Composition - A layered composition which can be used in various processes has been developed. The composition comprises an inner core such as a cordierite core and an outer layer comprising a refractory inorganic oxide, a fibrous component and an inorganic binder. The refractory inorganic oxide layer can be alumina, zirconia, titania, etc. while the fibrous component can be titania fibers, silica fibers, carbon fibers, etc. The inorganic oxide binder can be alumina, silica, zirconia, etc. The layer can also contain catalytic metals such as gold and platinum plus other modifiers. The layered composition is prepared by coating the inner core with a slurry comprising the refractory inorganic oxide, fibrous component, an inorganic binder precursor and an organic binding agent such as polyvinyl alcohol. The composition can be used in various hydrocarbon conversion processes. | 04-15-2010 |
20100247783 | LOW POLARITY NANO SILVER GELS - A composition that includes an stabilized silver nanoparticles, a gellant and an optional wax. The gellant and the stabilized silver nanoparticles are soluble or dispersable in either an isoparaffinic hydrocarbon solvent, a mineral oil solvent or an alkane solvent. | 09-30-2010 |
20110223338 | MINERAL HEAT-INSULATION MATERIAL - The method for applying a heat insulation layer to an area is characterized in that alpha-hemihydrate or beta-gypsum or lime-alpha-hemihydrate or a mixture thereof is mixed as hydraulic binder with a pore former consisting of aluminum powder, mixed with ground limestone, and citric acid with addition of water and is cast in liquid or pasty form onto the area. The mixture has a pH of 11.8 or more. The constituents are preferably mixed on site, namely in such a consistency that the mixture is self-leveling. Placement on the laying site can e.g. be carried out by means of a floor screed pump. The material expands to the desired total thickness, yielding a homogeneous insulation layer of uniform thickness and quality and of high strength that will reach its high final strength after about 24 hours. The material can also be applied in a pasty consistency to a wall. | 09-15-2011 |
20120027939 | NANOCOMPOSITE COATING AND THE METHOD OF COATING THEREOF - A nanocomposite coating and a method of coating for protecting a product with the nanocomposite coating are presented. Firstly, the nanocomposite coating is prepared, wherein the nanocomposite coating is formed by mixing 22.5˜49.5% nanometer inorganic oxide gel made by a sol-gel method, 45˜74.25% organic solvent and 1˜10% nanometer powder together. Next, the nanocomposite coating is coated onto surfaces of the product evenly by way of spraying, dipping or roll-to-rolling. Lastly, the product coated with the nanocomposite coating is subjected to a room temperature or a heating environment lower than 170 degrees centigrade to make the nanocomposite coating dry for forming nanometer protective films on the surfaces of the product. | 02-02-2012 |
20120076942 | ANTIMICROBIAL FABRIC FINISH - There is provided an antimicrobial composition for treating fabric, wherein said antimicrobial composition is a liquid and wherein said antimicrobial composition comprises water and a metal/polymer complex, wherein the pH of said composition is 6.5 or lower; wherein the concentration of said metal/polymer complex is from 0.005% to 0.1% by weight based on the weight of said composition; wherein said metal is selected from copper, silver, gold, tin, zinc, and combinations thereof. | 03-29-2012 |
20130316084 | METHODS FOR MANUFACTURING COMPONENTS FROM ARTICLES FORMED BY ADDITIVE-MANUFACTURING PROCESSES - A method is provided for manufacturing a component. The method includes forming a diffusion coating on a first intermediate article formed by an additive manufacturing process. The diffusion coating is removed from the first intermediate article forming a second intermediate article. The diffusion coating is formed by applying a layer of coating material on at least one surface of the first intermediate article and diffusion heat treating the first intermediate article and the layer. The diffusion coating comprises a surface additive layer and a diffusion layer below the surface additive layer. The formation of the diffusion coating and removal thereof may be repeated at least once. | 11-28-2013 |
20140295087 | METHOD FOR ADDITIVELY MANUFACTURING AN ARTICLE MADE OF A DIFFICULT-TO-WELD MATERIAL - The invention relates to a method for additively manufacturing an article made of a difficult-to-weld highly-precipitation-strengthened Ni-base super alloy that comprises Al and Ti in the sum of more than 5 wt.-% or a difficult-to weld carbide/solution-strengthened cobalt (Co)-base super alloy, whereby a metal particle mixture of at least a first phase and a second phase is provided as a starting material, said first phase of the mixture being a base material and said second phase of the mixture being a material which is a derivative of the first material and has relative to said material of said first phase an improved weldability, and whereby the metal particle mixture is processed by means of an additive manufacturing process which is one of selective laser melting (SLM), selective laser sintering (SLS), electron beam melting (EBM), laser metal forming (LMF), laser engineered net shape (LENS), or direct metal deposition (DMD). | 10-02-2014 |
20140314959 | METHOD FOR THE ESTABLISHMENT OF A CRACK RESISTANT EPOXY PAINT COAT AND PAINT COMPOSITIONS SUITABLE FOR SAID METHOD - The present invention relates to a method for the establishment of a crack resistant epoxy paint coat and paint compositions suitable for said method. The method is developed for use in ballast tanks e.g. a ballast tank of a vessel. The method involves the steps: (i) applying a paint composition comprising an epoxy-based binder system onto the surface thereby forming a curable paint film on the surface, and (ii) allowing the curable paint film to cure thereby forming the epoxy paint coat. The paint composition has a viscosity of at the most 140 KU, when ready to be applied. The paint composition comprises 35-80% by solids volume of the paint of an epoxy-based binder system having a ratio between the hydrogen equivalents and the epoxy equivalents in the range of 20:100 to 120:100. The paint composition furthermore comprises 0.5-30% by solids volume of the paint of one or more fibres. The fibres have an average length, of at the most 250 μm. | 10-23-2014 |
20140349017 | COPPER FILM-FORMING COMPOSITION, AND METHOD FOR PRODUCING COPPER FILM BY USING THE COMPOSITION - Provided is a copper film-forming composition, which is in the form of a solution and can obtain a copper film having sufficient electrical conductivity when heated at a relatively low temperature. This copper film-forming composition contains 0.01 to 3.0 mol/kg of copper formate or its hydrate, 0.01 to 3.0 mol/kg of copper acetate or its hydrate, at least one diol compound selected from a group of diols of formula (1) and diols of formula (1′), a piperidine compound of formula (2), and an organic solvent. When a content of the copper formate or its hydrate is assumed to be 1 mol/kg, the diol compound is contained in a range of 0.1 to 6.0 mol/kg and the piperidine compound is contained in a range of 0.1 to 6.0 mol/kg. | 11-27-2014 |
20150306624 | COATED PIPE SECTION AND METHOD OF MANUFACTURE - A pipe coating system and method of manufacture. Pipe sections, such as elbows, tees, wyes, or any suitable pipe section may be placed into a coating pan and covered with an abrasive-resistant material. The material hardens, and extends the life of the pipe section, which typically becomes worn when abrasive material flows through the pipe section. A thin sheet of metal would be placed around the entirety of the coating. This metal sheet allows for patching of the coating when a hole is worn completely through the pipe wall, the coating, and the metal sheet. | 10-29-2015 |
20150353706 | NICKEL-FREE GREEN PIGMENT - A green pigment is a blend of metal oxides including a [124] spinel which can contain certain combinations of lithium, sodium, cobalt, zinc, calcium, magnesium, copper, titanium, manganese, tin, and germanium, and a [134] spinel which can contain certain combinations of lithium, sodium, chromium, boron, iron, manganese aluminum, titanium, tin and germanium. The pigment lacks nickel. | 12-10-2015 |
20150368807 | METHOD FOR DEPOSITING LAYER - A method for depositing a layer has a step of repeatedly performing a unit deposition process until the layer on a deposition target reaches a predetermined thickness. The unit deposition process includes (A) a step of depositing the layer on the deposition target by a cold spray process while the deposition target is heated by a heater and (B) a step of heat treating the deposition target after said depositing. | 12-24-2015 |
20150373988 | METHOD OF FABRICATING ANTIMICROBIAL COMPLEX SURFACE - A method of fabricating an antimicrobial metal complex surface, and the method includes providing an article, and the article has a first metal complex surface treated by anodization. The first metal complex surface is formed with a first pore. Secondly a silver suspension is provided. The silver suspension also has pore sealing agent. The article is soaked in the suspension to form a pore sealing layer having silver particles on the first metal complex surface such that the silver particles are distributed in the pore sealing layer. The antimicrobial metal complex surface fabricated by the method inhibits microorganism growth on the anodized metal surface. | 12-31-2015 |
20160097116 | NANO-APERTURE FABRICATION USING TEMPLATE GUIDED THERMAL DEWETTING - A method for fabrication of metal film with nanoapertures is provided. The method includes the steps of providing a nanopatterned template including a plurality of nanostructures, depositing of the metal film onto the nanopatterned template, and thermally induced dewetting of the metal film to define the nanoapertures in the metal film by diffusion and reflow of the metal film. | 04-07-2016 |
20160160066 | PROCESS FOR DEPOSITING METAL ON A SUBSTRATE - A process for depositing a metal on a substrate involves the use of two reduction reactions in a bottom-up based tandem manner starting from a substrate surface and working upward. A first reduction reaction starts on the substrate surface at ambient temperature, and a second reduction reaction, which is initiated by the reaction heat of the first reduction reaction, occurs in a reactive ink solution film coated on top, which becomes solid after the reaction. Gas and other small molecules generated from the reduction reactions, and the solvent, can readily escape through the upper surface of the film before the solid metal layer is formed or during post-treatment, with no or few voids left in the metal film. Thus, the process can be used to form highly conductive films and features at ambient temperature on various substrates. | 06-09-2016 |
427383300 | Inorganic base | 23 |
20080305269 | Formation of CIGS absorber layer materials using atomic layer deposition and high throughput surface treatment - An absorber layer may be formed on a substrate using atomic layer deposition reactions. An absorber layer containing elements of groups IB, IIIA and VIB may be formed by placing a substrate in a treatment chamber and performing atomic layer deposition of a group IB element and/or one or more group IIIA elements from separate sources onto a substrate to form a film. A group VIA element is then incorporated into the film and annealed to form the absorber layer. The absorber layer may be greater than about 25 nm thick. The substrate may be coiled into one or more coils in such a way that adjacent turns of the coils do not touch one another. The coiled substrate may be placed in a treatment chamber where substantially an entire surface of the one or more coiled substrates may be treated by an atomic layer deposition process. One or more group IB elements and/or one or more group IIIA elements may be deposited onto the substrate in a stoichiometrically controlled ratio by atomic layer deposition using one or more self limiting reactions. | 12-11-2008 |
20090162557 | NANOSCALE METAL PASTE FOR INTERCONNECT AND METHOD OF USE - A paste including metal or metal alloy particles (which are preferably silver or silver alloy), a dispersant material, and a binder is used to form an electrical, mechanical or thermal interconnect between a device and a substrate. By using nanoscale particles (i.e., those which are less than 500 nm in size and most preferably less than 100 nm in size), the metal or metal alloy particles can be sintered at a low temperature to form a metal or metal alloy layer which is desired to allow good electrical, thermal and mechanical bonding, yet the metal or metal alloy layer can enable usage at a high temperature such as would be desired for SiC, GaN, or diamond (e.g., wide bandgap devices). Furthermore, significant application of pressure to form the densified layers is not required, as would be the case with micrometer sized particles. In addition, the binder can be varied so as to insulate the metal particles until a desired sintering temperature is reached; thereby permitting fast and complete sintering to be achieved. | 06-25-2009 |
20100092682 | Method for Fabricating a Heater Capable of Adjusting Refractive Index of an Optical Waveguide - A method for fabricating a thermal optical heating element capable of adjusting refractive index of an optical waveguide is disclosed. A silicon block is initially formed on a cladding layer on a silicon substrate. The silicon block is located in close proximity to an optical waveguide. A cobalt layer is deposited on the silicon block. The silicon block is then annealed to cause the cobalt layer to react with the silicon block to form a cobalt silicide layer. The silicon block is again annealed to cause the cobalt silicide layer to transform into a cobalt di-silicide layer. | 04-15-2010 |
20100310775 | Spalling for a Semiconductor Substrate - A method for spalling a layer from an ingot of a semiconductor substrate includes forming a metal layer on the ingot of the semiconductor substrate, wherein a tensile stress in the metal layer is configured to cause a fracture in the ingot; and removing the layer from the ingot at the fracture. A system for spalling a layer from an ingot of a semiconductor substrate includes a metal layer formed on the ingot of the semiconductor substrate, wherein a tensile stress in the metal layer is configured to cause a fracture in the ingot, and wherein the layer is configured to be removed from the ingot at the fracture. | 12-09-2010 |
20110311729 | METHOD FOR MAKING SURFACE-ENHANCED RAMAN SCATTERING SUBSTRATE - A method for making a surface-enhanced Raman scattering (SERS) substrate is introduced. The method includes the following steps. A carbon nanotube film structure and a first solution comprising a number of metallic ions are provided. The carbon nanotube film structure includes a number of carbon nanotubes. Standard electrode potentials of the metallic ions are greater than Fermi energies of the carbon nanotubes. At least part of the carbon nanotube film structure is dipped into the first solution. | 12-22-2011 |
20120237687 | METHOD OF MANUFACTURING CARBON MATERIAL - A method of manufacturing a carbon material that can prevent formation of unevenness of a coating film and degradation in adhesivity of the coating film, by inhibiting a carbon substrate from forming a portion in which a metal carbide layer is not formed. The method is characterized by including a first step of causing metal powder to adhere to a carbon substrate by coating the carbon substrate with a slurry containing the metal powder and polyvinyl alcohol as a binder, and a second step of heat-treating the carbon substrate to which the metal powder has adhered in a vessel containing an atmosphere of hydrogen chloride gas. | 09-20-2012 |
20140193585 | Method for Modifying Probe Tip - A method for modifying the probe tip of a microscope, including the following steps of providing a substrate, providing a metal precursor solution with fluoride ion on the substrate, using the probe tip to dip into the metal precursor solution with fluoride ion on the substrate in order to form a nano-metal particle on the probe tip by the reduction reaction of at least one metal ion in the metal precursor solution. As the result, the probe tip having the nano-metal particle thereon can increase the spatial-resolution of the measuring performance of the field sensitive scanning probe microscope due to the great reduction of stray field effects. | 07-10-2014 |
427383500 | Fused oxide-containing base (e.g., ceramic, glass, etc.) | 5 |
20090029057 | Ultra Low-Emissivity (Ultra Low E) Silver Coating - A silver conductive coating possessing infrared absorbing properties is disclosed. The coating is made from a blend of one or more micron size silver powders and/or flakes together with carbon black, inorganic pigment, glass frit, and powdered selenium or bismuth metal. The foregoing dry ingredients are pasted with an organic vehicle, applied to a substrate, and fired at a temperature of up to 1400° F. The coating absorbs infrared radiation beyond the decomposition of carbon black, thus allowing higher firing temperatures and hence shorter firing times. | 01-29-2009 |
20090208658 | Black Pigment Compositions, Thick Film Black Pigment Compositions, Conductive Single Layer Thick Film Compositions, and Black and Conductive Electrodes Formed Therefrom - The present invention is directed to pigment compositions, thick film black pigment compositions, conductive single layer thick film compositions, black electrodes made from such black conductive compositions and methods of forming such electrodes, and to the uses of such compositions, electrodes, and methods in flat panel display applications, including alternating-current plasma display panel devices (AC PDP). | 08-20-2009 |
20090220698 | NANOPARTICLES OF RARE EARTH OXIDES - Rare earth compositions comprising nanoparticles are described along with various nanotechnology applications of such nanoparticles. The compositions of the nanomaterials discussed may include scandium (Sc), yttrium (Y), lanthanum (La), cerium (Ce), praseodymium (Pr), neodymium (Nd), promethium (Pm), samarium (Sm), europium (Eu), gadolinium (Gd), terbium (Tb), dysprosium (Dy), holmium (Ho), erbium Er), thulium (Tm), ytterbium (Yb), and lutetium (Lu). | 09-03-2009 |
20110104374 | Heat treatable coated article with diamond-like carbon (DLC) and/or zirconium in coating - In certain example embodiments, a coated article includes respective layers including diamond-like carbon (DLC) and zirconium nitride before heat treatment (HT). During HT, the hydrogenated DLC acts as a fuel which upon combustion with oxygen produces carbon dioxide and/or water. The high temperature developed during this combustion heats the zirconium nitride to a temperature(s) well above the heat treating temperature, thereby causing the zirconium nitride to be transformed into a new post-HT layer including zirconium oxide that is scratch resistant and durable. | 05-05-2011 |
20120321805 | PRODUCTION METHOD OF METALLIZED SUBSTRATE - A production method for a metallized substrate to produce a metallized substrate which comprises: a sintered nitride ceramic substrate; a titanium nitride layer formed on the sintered substrate; and a metal layer containing copper, silver and titanium formed on the titanium nitride layer. The method comprises: a step of layering a first paste layer containing copper powder and titanium hydride powder on the sintered nitride ceramic substrate, to produce a first layered body; a step of layering a second paste layer containing silver-copper alloy powder on the first paste layer of the first layered body, to produce a second layered body; and a step of firing the second layered body, to thereby form the titanium nitride layer and the metal layer on the sintered nitride ceramic substrate. | 12-20-2012 |
427383700 | Metal base | 11 |
20080241406 | Electroless plating bath and method for producing high-temperature apparatus member using the bath - There is provided an electroless plating bath which makes it possible to form a diffusion barrier layer of a Re-based alloy, having a uniform thickness regardless of the shape and size of a workpiece, on the surface of a Ni-based alloy by a relatively simple method. The electroless plating bath for forming a Ni—Re—B alloy, containing not less than 50 at % of Re, on a substrate by electroless plating, has a pH of 6 to 8 and includes a metal supply source component containing Ni2+ and ReO4− at an equal equivalent in the range of 0.01 to 0.5 mol/L, a complexing agent component containing citric acid and at least one other organic acid, and a reducing agent component containing dimethylamine-borane. | 10-02-2008 |
20080274290 | Metal Components With Silicon-Containing Protective Coatings Substantially Free of Chromium and Methods of Forming Such Protective Coatings - A metal component ( | 11-06-2008 |
20090117282 | DIFFUSION ALUMINIDE COATING PROCESS - A method of applying a diffusion aluminide coating partially to a selective region more simply and conveniently, the method including a step of forming a metal aluminum film onto a selective region of the heat-resistant alloy substrate to be treated; and a step of applying a heat treatment to the heat-resistant alloy substrate on the selective region of which the metal aluminum film is formed and diffusing and penetrating aluminum in the metal aluminum film into the heat-resistant alloy substrate. | 05-07-2009 |
20100136240 | Process for Forming an Outward Grown Aluminide Coating - In one embodiment, a method for forming an aluminide coated article comprises: applying an aluminum composition to the article to form a precursor coating, heating the article to a migration temperature sufficient to diffuse a metal from the article into the precursor coating, and gasifying aluminum in the aluminum composition at a gasification temperature that is greater than or equal to the migration temperature. An outward grown aluminide coating forms on the article. In another embodiment, a method for forming an aluminide coated article, comprises: applying an aluminide composition an article to form a precursor coating, heating the article to a migration temperature of greater than or equal to 1,065° C., gasifying the aluminum at a gasification temperature of greater than or equal to 1,065° C., and forming an outward grown aluminide coating on less than 100% of a surface of the article. | 06-03-2010 |
20100285226 | Rust-Proof Paint Composition and Method of Manufacturing a Member Having a Rust-Proof Coating Using the Rust-Proof Paint Composition - A rust-proof coating, which does not contain a hazardous metal such as chromium and is able to form a thin coating in which crack generation is inhibited even after a baking treatment at a high temperature, including based on the whole composition, 5 to 40% by weight of an organic silicon compound, 0.05 to 5.0% by weight of an organic titanium compound, 20 to 60% by weight of one or more metal powders selected from the group of zinc powder, zinc alloy powder, and aluminum powder, and 10 to 60% by weight of an organic solvent. A coating having excellent anticorrosive properties can be formed by coating the above-mentioned paint composition followed by heating at a temperature of from 200 to 400 degrees C. | 11-11-2010 |
20110244133 | MEMBER FORMED WITH COATING FILM HAVING TIN AS ITS MAIN COMPONENT, COATING FILM FORMING METHOD AND SOLDERING METHOD - A member having a coating film capable of suppressing whisker generation is provided. The coating film ( | 10-06-2011 |
20120141686 | Rust-Proof Paint Composition And Method Of Manufacturing A Member Having A Rust-Proof Coating Using The Rust-Proof Paint Composition - A rust-proof coating, which does not contain a hazardous metal such as chromium and is able to form a thin coating in which crack generation is inhibited even after a baking treatment at a high temperature, including based on the whole composition, 5 to 40% by weight of an organic silicon compound, 0.05 to 5.0% by weight of an organic titanium compound, 20 to 60% by weight of one or more metal powders selected from the group of zinc powder, zinc alloy powder, and aluminum powder, and 10 to 60% by weight of an organic solvent. A coating having excellent anticorrosive properties can be formed by coating the above-mentioned paint composition followed by heating at a temperature of from 200 to 400 degrees C. | 06-07-2012 |
20120177830 | CORROSION-RESISTANT LAYERED COATINGS - In general, the present invention provides coating systems and processes for applying a selected coating system on a metallic substrate. The coating system includes two or more coating layers. A first layer comprises a MCrAl(Y,Hf)-type coating. The MCrAl(Y,Hf) coating is overlaid with a second coating composition that includes a metallic composition different from the MCrAl(Y,Hf) coating composition and includes one or more of: a platinum, silicon containing composition; a platinum, silicon, aluminum containing composition; a platinum, silicon, chromium containing composition; an aluminum, silicon containing composition; and an aluminum, silicon, chromium containing composition; each optionally combined with one or more of chromium, hafnium, lanthanum, manganese, yttrium and mixtures of these metals. Additionally the platinum in the metallic compositions can be exchanged in whole or in part by another noble metal. The resulting coating composition is subsequently heat treated to provide a diffused multilayer corrosion-resistant coating. | 07-12-2012 |
20140037852 | Metallurgically Bonded Stainless Steel - A steel wire having a stainless steel exterior; the steel wire includes a core region that comprises at least 55 wt. % iron which is metallurgically bonded to a stainless steel coating that consists of a stainless steel region and a bonding region. The stainless steel region can have a thickness of about 1 μm to about 250 μm, and a stainless steel composition that is approximately consistent across the thickness of the stainless steel region. The stainless steel composition includes an admixture of iron and about 10 wt. % to about 30 wt. % chromium. The bonding region is positioned between the stainless steel region and the core region, has a thickness that is greater than 1 μm and less than the thickness of the stainless steel region, and has a bonding composition. The bonding composition includes an admixture of iron and chromium, with a chromium concentration proximal to the stainless steel region that is approximately equal to the chromium concentration of the stainless steel region and has a chromium concentration proximal to the core region that has less than about 5 wt. % chromium. | 02-06-2014 |
20140079886 | METHOD OF PRODUCING TINNED STEEL SHEETS - A method of producing a tinned steel sheet that includes forming an Sn-containing plating layer on at least one surface of a steel sheet with a mass per unit area of Sn is 0.05 to 20 g/m | 03-20-2014 |
20140234544 | SURFACE TREATMENT AGENT FOR ALUMINUM HEAT EXCHANGERS AND SURFACE TREATMENT METHOD - A surface treatment agent for aluminum heat exchangers, which includes a zirconium element, vanadium element, fluorine element, aluminum element and an acrylic polymer, with the concentration of zirconium element in terms of zirconium being 100-100,000 ppm by mass, the concentration of vanadium element in terms of vanadium being 50-100,000 ppm by mass, the fluorine element concentration being 125-125,000 ppm by mass, the concentration of aluminum element in terms of aluminum being 5-10,000 ppm by mass and the concentration of the acrylic polymer being 100-100,000 ppm by mass. The surface treatment agent has a pH of 0.5-3, and suppresses odor generated from an aluminum heat exchanger, and the generation of white rust that deposits on the surface of an aluminum fin. | 08-21-2014 |