Patent application number | Description | Published |
20080210555 | HIGH DENSITY CERAMIC AND CERMET SPUTTERING TARGETS BY MICROWAVE SINTERING - A method of manufacturing sputtering targets from powder materials, comprising steps of: providing at least one raw powder material; forming the at least one raw powder material into a green body with density greater than about 40 % of theoretical maximum density; treating the green body with microwaves to form a sintered body with density greater than about 97% of theoretical maximum density; and forming a sputtering target from the sintered body. The methodology is especially useful in the fabrication of targets comprising dielectric and cermet materials. | 09-04-2008 |
20090010792 | Brittle metal alloy sputtering targets and method of fabricating same - A method of fabricating a sputtering target assembly comprises steps of mixing/blending selected amounts of powders of at least one noble or near-noble Group VIII metal at least one Group IVB, VB, or VIB refractory metal; forming the mixed/blended powder into a green compact having increased density; forming a full density compact from the green compact; cutting a target plate slice from the full density compact; diffusion bonding a backing plate to a surface of the target plate slice to form a target/backing plate assembly; and machining the target/backing plate assembly to a selected final dimension. The disclosed method is particularly useful for fabricating large diameter Ru—Ta alloy targets utilized in semiconductor metallization processing. | 01-08-2009 |
20090028744 | Ultra-high purity NiPt alloys and sputtering targets comprising same - A method of making a NiPt alloy having an ultra-high purity of at least about 4N5 and suitable for use as a sputtering target, comprises steps of: heating predetermined amounts of lesser purity Ni and Pt at an elevated temperature in a crucible to form a NiPt alloy melt, the crucible being composed of a material which is inert to the melt at the elevated temperature; and transferring the melt to a mold having a cavity with a surface coated with a release agent which does not contaminate the melt with impurity elements. The resultant NiPt alloy has a very low concentration of impurity elements and is subjected to cross-directional hot rolling for reducing thickness and grain size. | 01-29-2009 |
20090053089 | HOMOGENEOUS GRANULATED METAL BASED and METAL-CERAMIC BASED POWDERS - A method of making a homogeneous granulated metal-based powder, comprises steps of: providing preselected amounts of at least one metal element or metal alloy, at least one ceramic compound, and/or at least one non-metallic element; forming a homogeneous slurry/suspension or wet mixture comprising the preselected amounts of metal element(s) and/or metal alloys, ceramic compound(s), and/or non-metallic element(s), a liquid phase comprising at least one liquid, and at least one binder material; drying the slurry/suspension or mixture to remove at least a portion of the liquid phase and form a powder mixture comprising partially or completely dried granules; and subjecting the granules to a thermal de-binder process for effecting: additional removal of any remaining liquid phase, if necessary; removal of the at least one binder material; reduction of carbon content; reduction of oxygen on the surfaces or interior of the metal or metal alloy phases in the granules; and optional partial sintering for strengthening for withstanding subsequent processing. The resultant granules are useful in fabricating magnetic sputtering targets employed in the manufacture of magnetic data/information storage and retrieval media. | 02-26-2009 |
20090107837 | METHODOLOGY FOR RECYCLING RU AND RU-ALLOY DEPOSITION TARGETS & TARGETS MADE OF RECYCLED RU AND RU-BASED ALLOY POWDERS - A method of recycling ruthenium (Ru) and Ru-based alloys comprises steps of: providing a solid body of Ru or a Ru-based alloy; segmenting the body to form a particulate material; removing contaminants, including Fe, from the particulate material; reducing the sizes of the particulate material to form a powder material; removing contaminants, including Fe, from the powder material; reducing oxygen content of the powder material to below a predetermined level to form a purified powder material; and removing particles greater than a predetermined size from the purified powder material. The purified powder material may be utilized for forming deposition sources, e.g., sputtering targets. | 04-30-2009 |
20120111723 | METHODOLOGY FOR RECYCLING RU AND RU-ALLOY DEPOSITION TARGETS & TARGETS MADE OF RECYCLED RU AND RU-BASED ALLOY POWDERS - A recycled deposition source is ruthenium (Ru) or Ru-based alloy material in the form of a powder material having a size not greater than a 325 mesh size and having an average tap density greater than about 5 gm/cm | 05-10-2012 |