Patent application number | Description | Published |
20090211697 | REINFORCED HYBRID STRUCTURES AND METHODS THEREOF - The present invention discloses a method for producing an aircraft wing hybrid structure comprising the steps of producing a machined metallic bottom skin by either (i) pre-machining, (ii) preforming or (iii) combinations thereof, finishing the machined metallic bottom skin, providing a finished machined metallic bottom skin that serves as a lay-up mold, placing a plurality of core straps on top of the finished machined metallic bottom skin, arranging a skin that is selected from the group consisting of a monolithic skin, a fiber metal laminate skin and a non-reinforced metallic laminate skin on top of the plurality of cores strap to form a module, and curing the module, wherein the finished machined metallic bottom skin is the load carrying element in the aircraft wing hybrid structure. In another embodiment, the present invention discloses a method for producing an aircraft wing hybrid structure comprising the steps of providing a lay-up mold, placing a first skin that is selected from the group consisting of a monolithic skin, a fiber metal laminate skin and a non-reinforced metallic laminate skin on a lay-up mold, placing a plurality of core straps on top of the skin, arranging a second skin that is selected from the group consisting of a monolithic skin, a fiber metal laminate skin and a non-reinforced metallic laminate skin on top of the plurality of cores strap to form a module, and curing the module. | 08-27-2009 |
20100043939 | Reinforced Hybrid Structures and Methods Thereof - The present invention discloses a method for producing a wing structure comprising producing a machined metallic bottom skin by pre-machinmg, preforming or combinations thereof, finishing the skin which serves as a mold, placing a plurality of straps on top of the skin, arranging a monolithic, fiber metal laminate, or non-reinforced metallic laminate skin on top of the plurality of straps to form a module, and curing the module, wherein the bottom skin is the load carrying element in the wing The present invention also discloses a method for producing a wing structure comprising providing a mold, placing a first monolithic, fiber metal laminate, or non-reinforced metallic laminate skin on a lay-up mold, placing a plurality of straps on top of the skin, arranging a second monolithic, fiber metal laminate, or non-reinforced metallic laminate skin on top of the plurality of straps to form a module, and curing the module. | 02-25-2010 |
20130236712 | METAL LAMINATES AND METHODS THEREOF - Disclosed herein are metal laminates, and methods related thereto. The metal laminates have a cold rolled steel substrate having at least a first side and a second side; a backer coating disposed upon at least a portion of the first side of the cold rolled steel substrate; an adhesive disposed upon at least a portion of the second side of the cold rolled steel substrate; and an aluminum metal layer having at least a first side and a second side, at least a portion of the first side of the aluminum metal layer contacts at least a portion of the adhesive. | 09-12-2013 |
Patent application number | Description | Published |
20100120808 | SPIROCYCLIC HETEROCYCLIC DERIVATIVES AND METHODS OF THEIR USE - Spirocyclic heterocyclic derivatives, pharmaceutical compositions containing these compounds, and methods for their pharmaceutical use are disclosed. In certain embodiments, the spirocyclic heterocyclic derivatives are ligands of the δ opioid receptor and may be useful, inter alia, for treating and/or preventing pain, anxiety, gastrointestinal disorders, and other δ opioid receptor-mediated conditions. | 05-13-2010 |
20100196269 | SPIROCYCLIC HETEROCYCLIC DERIVATIVES AND METHODS OF THEIR USE - Spirocyclic heterocyclic derivatives, pharmaceutical compositions containing these compounds, and methods for their pharmaceutical use are disclosed. In certain embodiments, the spirocyclic heterocyclic derivatives are ligands of the δ-opioid receptor and may be useful, inter alia, for treating and/or preventing pain, anxiety, gastrointestinal disorders, and other δ-opioid receptor-mediated diseases, disorders, and/or conditions. | 08-05-2010 |
Patent application number | Description | Published |
20090204191 | Bipolar Stimulation/Recording Device With Widely Spaced Electrodes - A bipolar stimulator probe suitable for application of intramuscular stimulation provides an active stimulator electrode and a reference electrode as part of a single tool. The separation between the electrodes is significantly greater than the electrode separation of known bipolar stimulator probes and bipolar bar electrode configurations. The probe tool may be configured to permit adjustment of the fixed relative position of the electrodes within a given range. By providing a relatively wide spacing between the two electrodes, the tool can be used to approximate the effect of monopolar stimulation with a separate reference electrode, with the electrical stimulus producing less pain to the patient compared to bipolar stimulation where the two electrodes are spaced apart by only 2-4 cm or less. | 08-13-2009 |
20120253436 | Holder Removably Mountable on Associated Device - A holder serves as a removable accessory to a stimulator unit chassis or cabinet, or other device. It can function as an integral part of the device that closely fits over the top of the device, to provide a support for a hand-held tool associated with the device, e.g., a bipolar probe with widely spaced electrodes. The holder, which may be constructed to be of one piece, is configured to be easily removed from the device to facilitate cleaning of the holder and/or to facilitate packing of the stimulator unit (or other device) for shipping purposes, e.g., in case of device repairs, etc. In other embodiments, the holder may associate a tray or box for storing a variety of items with a host device on which the holder is mounted. | 10-04-2012 |
Patent application number | Description | Published |
20100247954 | SYSTEM AND METHOD OF PRODUCING MULTI-LAYERED ALLOY PRODUCTS - System and method of producing multi-layered aluminum alloy products are disclosed. A multi-layered aluminum alloy product may be formed by first heating a first aluminum alloy to a first temperature where the first temperature is at least about 5° C. lower than the eutectic temperature of the first aluminum alloy, second heating a second aluminum alloy to a second temperature where the second temperature is at least about 5° C. higher than the liquidus temperature of the second aluminum alloy, and coupling the second aluminum alloy to the first aluminum alloy to produce a multi-layered aluminum alloy product. | 09-30-2010 |
20110100579 | METHOD OF UNIDIRECTIONAL SOLIDIFICATION OF CASTINGS AND ASSOCIATED APPARATUS - Molten metal is injected uniformly into a horizontal mold from a feed chamber in a horizontal or vertical direction at a controlled rate, directly on top of the metal already within the mold. A cooling medium is applied to the bottom surface of the mold, with the type and flow rate of the cooling medium being varied to produce a controlled cooling rate throughout the casting process. The rate of introduction of molten metal and the flow rate of the cooling medium are both controlled to produce a relatively uniform solidification rate within the mold, thereby producing a uniform microstructure throughout the casting, and low stresses throughout the casting. A multiple layer ingot product is also provided comprising a base alloy layer and at least a first additional alloy layer, the two layers having different alloy compositions, where the first additional alloy layer is bonded directly to the base alloy layer by applying the first additional alloy in the molten state to the surface of the base alloy while the surface temperature of the base alloy is lower than the liquidus temperature and greater than eutectic temperature of the base alloy −50 degrees Celsuis. | 05-05-2011 |
20130248133 | METHOD OF PRODUCING INGOT WITH VARIABLE COMPOSITION USING PLANAR SOLIDIFICATION - Molten metal of a first composition is fed into a mold cavity, via a first control apparatus, wherein the control apparatus is open, wherein the feeding comprises flowing out of a first feed chamber. The first control apparatus is closed. A second control apparatus is opened. Molten metal of a second composition is fed into the mold cavity, via the second control apparatus, wherein at least a portion of the metal of the first composition in the mold cavity is sufficiently molten so that an initial feed of molten metal of the second composition mixes with the molten metal of the first composition in the mold cavity, wherein the feeding comprises flowing out of a second feed chamber, wherein the second composition is different from the first composition. An ingot is removed from the mold cavity, wherein the ingot has a top section, a middle section, and a bottom section, wherein the bottom section is composed of metal of the first composition, wherein the top section is composed of metal of the second composition, wherein the middle section is composed of a mixture of metal of the first composition and the second composition. | 09-26-2013 |
20130337177 | SYSTEM AND METHOD OF PRODUCING MULTI-LAYERED ALLOY PRODUCTS - System and method of producing multi-layered aluminum alloy products are disclosed. A multi-layered aluminum alloy product may be formed by first heating a first aluminum alloy to a first temperature where the first temperature is at least about 5° C. lower than the eutectic temperature of the first aluminum alloy, second heating a second aluminum alloy to a second temperature where the second temperature is at least about 5° C. higher than the liquidus temperature of the second aluminum alloy, and coupling the second aluminum alloy to the first aluminum alloy to produce a multi-layered aluminum alloy product. | 12-19-2013 |
20140178590 | SYSTEM AND METHOD OF PRODUCING MULTI-LAYERED ALLOY PRODUCTS - System and method of producing multi-layered aluminum alloy products are disclosed. A multi-layered aluminum alloy product may be formed by first heating a first aluminum alloy to a first temperature where the first temperature is at least about 5° C. lower than the eutectic temperature of the first aluminum alloy, second heating a second aluminum alloy to a second temperature where the second temperature is at least about 5° C. higher than the liquidus temperature of the second aluminum alloy, and coupling the second aluminum alloy to the first aluminum alloy to produce a multi-layered aluminum alloy product. | 06-26-2014 |
Patent application number | Description | Published |
20080274367 | RECOVERED HIGH STRENGTH MULTI-LAYER ALUMINUM BRAZING SHEET PRODUCTS - A multi-layer metallurgical product comprising a core aluminum alloy, purposefully tailored through chemistry and processing route to resist recrystallization during the brazing cycle to intentionally exploit the higher strengths immediately after brazing of a deformed and recovered microstructure, the core aluminum alloy being positioned on one side to an aluminum alloy interliner designed to be resistant to localized erosion, which, in turn, is adjacent to a 4xxx cladding alloy. The multi-layer product can be fabricated at least in part via any multi-alloy ingot casting processes such as the Simultaneous Multi-Alloy Casting process or the Unidirectional Solidification of Castings process. | 11-06-2008 |
20100297467 | METHOD OF PRODUCING INGOT WITH VARIABLE COMPOSITION USING PLANAR SOLIDIFICATION - Molten metal of a first composition is fed into a mold cavity, via a first control apparatus, wherein the control apparatus is open, wherein the feeding comprises flowing out of a first feed chamber. The first control apparatus is closed. A second control apparatus is opened. Molten metal of a second composition is fed into the mold cavity, via the second control apparatus, wherein at least a portion of the metal of the first composition in the mold cavity is sufficiently molten so that an initial feed of molten metal of the second composition mixes with the molten metal of the first composition in the mold cavity, wherein the feeding comprises flowing out of a second feed chamber, wherein the second composition is different from the first composition. An ingot is removed from the mold cavity, wherein the ingot has a top section, a middle section, and a bottom section, wherein the bottom section is composed of metal of the first composition, wherein the top section is composed of metal of the second composition, wherein the middle section is composed of a mixture of metal of the first composition and the second composition. | 11-25-2010 |
20110252956 | ARMOR WITH VARIABLE COMPOSITION HAVING METALLURGICALLY BONDED LAYERS - In one embodiment, two or more layers of aluminum alloys are metallurgically bonded and then wrought to produce an armor product having improved ballistics limits for resistance to armor piercing and fragment simulated projectile threats. In one embodiment, the armor product can include a composition that includes a continuous gradient of two or more aluminum alloy compositions. In one embodiment, the armor product can include layers of different aluminum alloys. In one embodiment, the armor product can include compositions of a mixture of more than one aluminum alloy. This armor may be useful on light armor vehicles having wheels, as well as planes and boats. | 10-20-2011 |
20120121890 | METHODS OF MAKING A REINFORCED COMPOSITE AND REINFORCED COMPOSITE PRODUCTS - Methods for making reinforced composites and reinforced composite products are provided. In one embodiment, a method comprises adding (a) a carrier comprising a salt and (b) a plurality of substantially inert sub-micron sized particles into a molten metal to form a mixture; and forming a reinforced composite from the mixture, the reinforced composite comprising a non-particulate metal portion having the substantially inert sub-micron sized particles therein. | 05-17-2012 |
20140231040 | METHOD OF PRODUCING INGOT WITH VARIABLE COMPOSITION USING PLANAR SOLIDIFICATION - Molten metal of a first composition is fed into a mold cavity, via a first control apparatus, wherein the control apparatus is open, wherein the feeding comprises flowing out of a first feed chamber. The first control apparatus is closed. A second control apparatus is opened. Molten metal of a second composition is fed into the mold cavity, via the second control apparatus, wherein at least a portion of the metal of the first composition in the mold cavity is sufficiently molten so that an initial feed of molten metal of the second composition mixes with the molten metal of the first composition in the mold cavity, wherein the feeding comprises flowing out of a second feed chamber, wherein the second composition is different from the first composition. An ingot is removed from the mold cavity, wherein the ingot has a top section, a middle section, and a bottom section, wherein the bottom section is composed of metal of the first composition, wherein the top section is composed of metal of the second composition, wherein the middle section is composed of a mixture of metal of the first composition and the second composition. | 08-21-2014 |
Patent application number | Description | Published |
20080297289 | Simultaneous Rotational Control Using Offset Linear Actuators - An apparatus includes a movable member, and first and second actuators coupled to the movable member at positions offset from a first axis that passes through a centroid of the movable member. A controller independently controls the first and second actuators to exert a first force on the movable member in a direction generally parallel to the first axis, thereby controlling both linear and rotational orientation of the movable member. The apparatus can further include third and fourth actuators coupled to the movable member at positions offset from a second axis that passes through the centroid of the movable member, and the controller can independently controlling third and fourth actuators. | 12-04-2008 |
20090001846 | Electrostatic Surface Drive With Multiple Operating Voltages - An apparatus includes a first array of electrodes and a second array of electrodes separated by a gap, and a controller for imposing a voltage on a plurality of electrodes in the first array of electrodes, wherein the magnitude of the voltage changes in response to an operating parameter of the apparatus. | 01-01-2009 |
20090154004 | Servo architecture for high areal density data storage - A track accessing mechanism includes a track accessing arm actuable by a primary actuation device for accessing concentric data tracks on a storage medium and at least one slider attached to the track accessing arm. The at least one slider includes a servo head configured to read positional information from a plurality of continuous, concentric rings radially spaced apart from each other on a storage medium and a data head configured to read and write user data to the least one concentric data track. At least a portion of each ring includes servo information. The at least one data track is positioned between each continuous, concentric ring on the storage medium. | 06-18-2009 |