Abstract: In one embodiment, a substrate, for example a tool used in hot metalforming operations, is coated with an enamel nanoparticulate graded coating. The nanoparticles in the coating may be boron-nitride nanoparticles. The coating may include a first portion adjacent a surface of the substrate, and a second portion adjacent the first portion. The first portion of the coating may have a lower volume fraction of nanoparticles than the second portion. The first portion has excellent adhesion to the surface of the substrate, and the second portion reduces friction and wear. The coated tool may be formed by applying at least one layer of a coating mixture to a surface of the tool and heating the coating mixture. A metal workpiece may be formed into an article by contacting the metal workpiece against the coated surface of the tool.

Abstract: A bipolar plate to reduce electrical contact resistance between the plate and a diffusion layer used in a fuel cell. The opposing surfaces of the plate define flow channels with upstanding lands interspersed between them. The lands of the plate form an electrically-conductive contact with a diffusion layer in the fuel cell. At least a portion of the electrically-conductive contact is made up of a nickel-based alloy that reduces the contact resistance between the plate and the diffusion layer as a way to achieve improved electric current density. In one form, the alloy can be used as the primary material in the plate, while in another, it can be used as a coating deposited onto a conventional stainless steel plate.

Abstract: According to one embodiment, a film of solid lubricant particles is applied to metal workpieces, which are then subjected to a controlled humid environment for predetermined times and temperatures. Following the exposure to humidity, the lubricated metal workpieces are heated for a hot forming operation. The humidification of the lubricated workpiece increases the adhesion of solid lubricant films to the metal workpieces, thereby improving the tribological performance of the workpieces during subsequent hot forming operations.

Abstract: The instant disclosure relates to a protective coating for an industrial part working surface. The protective coating includes a first protective portion, and at least one additional protective portion positioned on the first protective portion. The first protective portion includes marker particles in a first coating matrix, where the marker particles make up from about 5 to 40 volume percent of the first protective portion and each marker particle has a diameter ranging from about 0.01 microns to 100 microns. The at least one additional protective portion includes a second coating matrix, and, in the second coating matrix, either i) a decreased amount of marker particles in comparison to an amount of the marker particles in the first protective portion or ii) no marker particles.

Abstract: A die for use in a sheet metal forming process includes a die material having a surface. A plurality of depressions is formed in a predetermined portion of the surface, where each of the plurality of depressions has a predetermined diameter and depth. Interaction of a surface of a sheet metal blank with i) the plurality of depressions, and ii) a solid forming lubricant, including particles of an average predetermined size and distribution, disposed on one of the die material surface or the sheet metal blank surface substantially reduces adhesion between the sheet metal blank surface and the die material surface during the sheet metal forming process.

Abstract: Disclosed is a method for producing a complex composite metal structure having a metallic foam substrate. A sheet metal structure is provided having a metallic foam precursor formed of metallic particles and foaming agents. The sheet metal structure is formed using quick plastic or superplastic formation processes. After or during the formation of the metal, the temperature of the metallic precursor is raised to a point that the foaming agent produces a metallic foam.

Abstract: An improved screen tooling for a fiber preforming process, and a durable coating system for such tooling. The coating system comprises a surface layer of a porcelain enamel composition that is generally a borosilicate glass, and preferable contains quartz, borax, boric oxide, potassium nitrate, sodium silicofluoride, and manganese dioxide, and optionally contains titanium dioxide, antimony oxide, cobalt oxide and/or barium oxide. Preferred compositions are dependent in part on the screen tooling material. The invention also encompasses a fiber preforming process that utilizes screen tooling with the coating system.

Abstract: Disclosed is a method of forming metallic composite structures The method utilizes superplastic and quickplastic formation methodologies in conjunction with the use of appended engineered metallic foams to provide energy absorbing materials.

Abstract: An improved screen tooling for a fiber preforming process, and a durable coating system for such tooling. The coating system comprises a surface layer of a porcelain enamel composition that is generally a borosilicate glass, and preferable contains quartz, borax, boric oxide, potassium nitrate, sodium silicofluoride, and manganese dioxide, and optionally contains titanium dioxide, antimony oxide, cobalt oxide and/or barium oxide. Preferred compositions are dependent in part on the screen tooling material. The invention also encompasses a fiber preforming process that utilizes screen tooling with the coating system.

Abstract: A method for reducing the part-to-part cycle time of quick plastic forming and superplastic forming of a metallic sheet alloy into an automotive sheet metal component by locally modifying a die surface to control friction which militates against undesirable necking and thinning.

Abstract: An apparatus for forming a metal piece at an elevated temperature comprises a part having a binding surface configured to hold the metal during forming, wherein the binding surface comprises a porcelain enamel coating. The apparatus may be a superplastic forming process, and the binding surface may have an enamel coated seal bead that cooperates with a second binding surface of a second binding surface to form a seal about a perimeter of a metal sheet that is formed into a desired shape.

Abstract: A coating for superplastic forming (SPF) and quick plastic forming (QPF) tooling and an SPF/QPF process made possible with the coating. The coating defines the forming surface of an SPF/QPF tool, and consists essentially of either a tungsten carbide cermet or a chromium carbide cermet. The coating preferably comprises a metal matrix containing tungsten carbide or chromium carbide particles having a particle size of not more than 0.1 micrometer, and is preferably prepared to have a surface finish of not rougher than 0.3 micrometer Ra. An SPF/QPF process that makes use of a tool whose forming surface is provided with the coating can be performed without depositing any lubricant on the forming surface or workpiece.

Abstract: Screen tooling having a durable coating system, and a fiber preforming process employing the tooling. The coating system comprises a surface layer of a porcelain enamel composition that is generally a borosilicate glass, and preferable contains quartz, borax, boric oxide, potassium nitrate, sodium silicofluoride, and manganese dioxide, and optionally contains titanium dioxide, antimony oxide, cobalt oxide and/or barium oxide.

Abstract: A coating for superplastic forming (SPF) and quick plastic forming (QPF) tooling and an SPF/QPF process made possible with the coating. The coating defines the forming surface of an SPF/QPF tool, and consists essentially of either a tungsten carbide cermet or a chromium carbide cermet. The coating preferably comprises a metal matrix containing tungsten carbide or chromium carbide particles having a particle size of not more than 0.1 micrometer, and is preferably prepared to have a surface finish of not rougher than 0.3 micrometer Ra. An SPF/QPF process that makes use of a tool whose forming surface is provided with the coating can be performed without depositing any lubricant on the forming surface or workpiece.

Abstract: Equipment and methods for the rapid and easy cleaning of metal forming dies while in a press and operating at elevated temperatures. The invention features the physical removal of excess lubricant collecting on the hot surface of the forming dies under operating conditions so that no lubricant-induced flaws occur on the show surface of the formed part for optimized production of high quality parts. Special and effector tooling is supplied with high velocity air which draws in solid CO2 which sublimes into pressurize streams of gaseous CO2 that is discharged through nozzles onto the forming surfaces of hot forming dies after a number of lubricated parts have been formed therewith to physically sweep foreign matter including lubricants from the die surfaces. A robot is employed to move the activated end effector in predetermined paths across the dies for fully sweeping and cleaning the forming surfaces. The gas then dissipates.

Abstract: Equipment and methods for the rapid and easy cleaning of metal forming dies while in a press and operating at elevated temperatures. The invention features the physical removal of excess lubricant collecting on the hot surface of the forming dies under operating conditions so that no lubricant-induced flaws occur on the show surface of the formed part for optimized production of high quality parts. Special and effector tooling is supplied with high velocity air which draws in solid CO2 which sublimes into pressurize streams of gaseous CO2 that is discharged through nozzles onto the forming surfaces of hot forming dies after a number of lubricated parts have been formed therewith to physically sweep foreign matter including lubricants from the die surfaces. A robot is employed to move the activated end effector in predetermined paths across the dies for fully sweeping and cleaning the forming surfaces. The gas then dissipates.