Kardokus
Janine Kardokus, Veradale, WA US
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20080289958 | Novel Manufacturing Design and Processing Methods and Apparatus for Sputtering Targets - Sputtering targets having a reduced burn-in time are disclosed that comprise: a) a heat-modified surface material having a substantially uniform crystallographic orientation, wherein at least part of the surface material was melted during heat-treatment, and b) a core material having an average grain size. Sputtering targets are also disclosed that include a heat-modified surface material having network of shallow trenches, alternating rounded peaks and valleys in the surface of the target or a combination thereof, wherein at least part of the surface material was melted during heat-treatment, and a core material having an average grain size. Methods of producing sputtering targets having reduced burn-in times comprises: a) providing a sputtering target comprising a sputtering surface having a sputter material and a crystal lattice, and b) heat-modifying the sputtering surface in order to melt at least part of the surface material and modify the crystal lattice. Methods of producing a sputtering target having a reduced burn-in time are also disclosed comprising: providing a sputtering target having a sputtering surface, wherein the sputtering surface comprises a damage layer, and modifying the sputtering surface by deplating a layer of material, pulsed-plating a layer of material or a combination thereof | 11-27-2008 |
20130329763 | CORROSION RESISTANT ELECTRODES FOR LASER CHAMBERS - Corrosion resistant electrodes are formed of brass that has been doped with phosphorus. The electrodes are formed of brass that contains about 100 ppm to about 1,000 ppm of phosphorus, and the brass has no visible microporosity at a magnification of 400×. The brass may be cartridge brass that contains about 30 weight percent of zinc and the balance copper. Corrosion resistant electrodes also may be formed by subjecting brass to severe plastic deformation to increase the resistance of the brass to plasma corrosion. The corrosion resistant electrodes can be used in laser systems to generate laser light. | 12-12-2013 |
Janine K. Kardokus, Varadale, WA US
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20090078570 | TARGET/BACKING PLATE CONSTRUCTIONS, AND METHODS OF FORMING TARGET/BACKING PLATE CONSTRUCTIONS - Target/backing plate constructions and methods of forming target/backing plate constructions are disclosed herein. The targets and backing plates can be bonded to one another through an appropriate interlayer. The targets can comprise one or more of titanium, tantalum, titanium zirconium, hafnium, niobium, vanadium, tungsten, copper or a combination thereof. The interlayer can comprise one or more of silver, copper, nickel, tin, titanium and indium. Target/backing plate constructions of the present invention can have bond strengths of at least 20 ksi and an average grain size within the target of less than 80 microns. | 03-26-2009 |
Janine K. Kardokus, Veradale, WA US
Patent application number | Description | Published |
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20090065354 | SPUTTERING TARGETS COMPRISING A NOVEL MANUFACTURING DESIGN, METHODS OF PRODUCTION AND USES THEREOF - A sputtering target is described herein, which includes: a) a surface material, and b) a core material coupled to the surface material, wherein at least one of the surface material or the core material has less than 100 ppm defect volume. Methods for producing sputtering targets are described that include: a) providing at least one sputtering target material, b) melting the at least one sputtering target material to provide a molten material, c) degassing the molten material, d) pouring the molten material into a target mold. In some embodiments, pouring the molten material into a target mold comprises under-pouring or under-skimming the molten material from the crucible into the target mold. Sputtering targets and related apparatus formed by and utilizing these methods are also described herein. In addition, uses of these sputtering targets are described herein. | 03-12-2009 |