Abstract: (1) A nickel-base alloy product having, on the surface thereof, an oxide film comprising at least two layers, namely a first layer mainly composed of Cr2O3 and having a chromium content of not less than 50% relative to the total amount of metal elements and a second layer occurring outside the first layer and mainly composed of MnCr2O4, wherein the grain size of Cr2O3 crystals in the first layer is 50 to 1,000 nm and the total oxide film thickness is 180 to 1,500 nm.
(2) A method of producing the nickel-base alloy product as specified above under (1) which comprises subjecting a nickel-base alloy product to oxide film formation treatment by maintaining the same at a temperature of 650 to 1,200° C. in a hydrogen atmosphere or hydrogen-argon mixed atmosphere showing a dew point of −60° C. to +20° C. for 1 to 1,200 minutes.
Abstract: There is disclosed a material wire for wear-resistant and trobologically favorable shaped bodies manufactured by the arc spraying method, which comprises a covering (12) and a filling (14). The covering (12) comprises an alloy based on aluminium with at least one further alloy component, for example magnesium or manganese. The filling (14) comprises further alloy components for the resulting alloy of the shaped body, for example silicon. The filling (14) may apart from the silicon also comprise further components, for example aluminium and/or boron. By way of this the composition and the material properties of the resulting alloy of the shaped body may be set.
Abstract: Identification markers and identification methods for solid objects, including metallic objects, are disclosed, the marker integrated with the object so that it is neither optically visible nor removable without destruction or impairment of the object. The marker is more radio opaque than the base material forming the object in the region of marker location and includes an identifying indicia thereon.
Type:
Grant
Filed:
June 12, 2000
Date of Patent:
August 13, 2002
Assignee:
Applied Technologies & Fabrication, Inc.
Abstract: The invention provides a thin-film heater having a high heat-resisting property and a high resistivity and suitable for low power consumption and for a compact and fine structure, and a method of manufacturing this thin-film heater.
A thin-film heater contains a tungsten film formed on a substrate, and this tungsten film generates heat when a current is supplied to this tungsten film. The tungsten film is formed by an RF sputtering method, and is constructed of tungsten having peaks at approximately 36 degrees, 40 degrees and 44 degrees in Bragg angle 2&thgr; of X-ray diffraction.