| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 428564000 | Nonmetal particles in particulate component | 7 |
| 20080286598 | Abrasion and impact resistant coatings - A method of hard facing a metal substrate with a two-layer abrasion and impact resistant coating by fusing a softer inner first coat of a matrix alloy of nickel-, cobalt- or iron-base alloy with carbide particles onto the substrate and fusing a harder second outer coat of a matrix alloy of nickel-, cobalt- or iron-base alloy with angular carbide particles onto the softer inner first coat. The softer inner first coat preferably has a hardness of about 30-40 Rc and the harder outer second coat preferably has a hardness of about 50-60 Rc. The carbide particles preferably are tungsten carbide particles in the size range of about 60 to 250μ and comprise about 55 to 65 wt % of each of the inner and outer coats. | 11-20-2008 |
| 20090274923 | Tools Having Compacted Powder Metal Work Surfaces, And Method - A method and apparatus for forming a net or near net shaped work surface includes providing a substrate and engaging a die with the substrate forming a die cavity enclosing a portion of the substrate. A powdered metal is introduced into the cavity, heated prior to and within the die cavity, and pressurized to consolidate the powdered metal. The die is then disengaged from the substrate. In one exemplary embodiment, the work surface forms the cutting teeth of a saw blade. | 11-05-2009 |
| 20120301739 | METAL PRETREATMENT COMPOSITION CONTAINING ZIRCONIUM, COPPER, ZINC, AND NITRATE AND RELATED COATINGS ON METAL SUBSTRATES - A pretreatment composition for metal that provides enhanced corrosion resistance, enhanced paint adhesion and reduced chip damage to a wide variety of metal substrates. The pretreatment is also cleaner because it is based on zirconium rather than zinc phosphates. The pretreatment coating composition in use preferably comprises 50 to 300 parts per million (ppm) zirconium, 0 to 100 ppm of SiO | 11-29-2012 |
| 20130052473 | COPPER-BASED SLIDING MATERIAL - In a copper-based sliding material in which a Cu alloy layer contains 5% to 30% by mass of Bi, and the balance consisting of Cu and an unavoidable impurity, Bi is dispersed as particles of a Bi phase in the Cu alloy layer, and the mass ratio of the particles having a particle size of 2 to 50 μm and a circularity of 0.1 to 0.7 is 30% or more in the entire Bi phase in the Cu alloy layer, so that the particles of the Bi phase are uniformly dispersed in the Cu alloy layer. Therefore, the particles of the Bi phase in the Cu alloy layer are sequentially exposed to a sliding surface as wear of the sliding material progresses while excessive flow-out of molten Bi is prevented, so that improved seizure resistance is achieved. | 02-28-2013 |
| 20130260165 | CUBIC BORON NITRIDE SINTERED BODY TOOL - A cBN sintered body tool has the following feature. In at least one cross sectional surface of the cBN sintered body tool taken along a plane perpendicular to a joining surface having the largest area in joining surfaces between the cBN sintered body and the joining layer, a point C and a point D are assumed to represent points away by ¼ of the length of a line segment connecting a point A and a point B shown in a figure. A value obtained when an area of a region surrounded by a line segment connecting the point C and the point D, the first cBN particle, the second cBN particle, and the binder phase is divided by the length of the line segment connecting the point A and point B to each other is 0.14-0.6 μm. | 10-03-2013 |
| 20130260166 | Coated Titanium Alloy Surfaces - In one aspect, composite articles are described herein comprising a lightweight, high strength metal substrate and an abrasion resistant coating adhered to the substrate. In some embodiments, a composite article described herein comprises a titanium or titanium alloy substrate and a coating adhered to the substrate, the coating comprising particles disposed in a metal or alloy matrix. | 10-03-2013 |
| 20150050512 | CEMENTED CARBIDE ARTICLE AND METHOD FOR MAKING SAME - The present invention relates to a cemented carbide article comprising a core of metal carbide grains and a binder selected from cobalt, nickel, iron and alloys containing one or more of these metals and a surface layer defining an outer surface for the article, the surface layer comprising 5 to 25 weight percent of tungsten and 0.1 to 5 weight percent carbon, the balance of the surface layer comprising a metal or alloy selected from the binder metals and alloys and the surface layer being substantially free of carbide grains as determined by optical microscopy or SEM. A method for the production of a cemented carbide article is also provided. | 02-19-2015 |
