Abstract: A method is taught for modifying the coefficient of thermal expansion of a molybdenum disilicide matrix material, so as to permit preparation of refractory metal fiber reinforced matrices having improved high temperature strength, creep resistance, toughness, and resistance to matrix cracking during thermal cycling.

Abstract: A method is taught for modifying the coefficient of thermal expansion of a molybdenum disilicide matrix material, so as to permit preparation of ceramic fiber reinforced matrices having improved high temperature strength, creep resistance, toughness, and resistance to matrix cracking during thermal cycling.

Abstract: A molybdenum disilicide composite comprising ceramic reinforcing fibers and sufficient particulate silicon carbide, silicon nitride, boron nitride or silica to modify the coefficient of thermal expansion of the matrix to match that of the fiber is found to have improved high temperature strength, creep resistance, toughness, and resistance to matrix cracking during thermal cycling.

Abstract: A molybdenum disilicide composite comprising refractory metal reinforcing fibers and sufficient particulate silicon carbide, silicon nitride, boron nitride, or silica to modify the coefficient of thermal expansion of the matrix to match that of the fiber is found to have improved high temperature strength, creep resistance, toughness, and resistance to matrix cracking during thermal cycling.

Abstract: A class of protected coatings for superalloys is described in which the coatings compositions are based on the compositions of the underlying substrate. By tailoring the coatings to the substrate composition, diffusional stability results and the other mechanical properties of the coating such as coefficient of thermal expansion and modulus, are similar to that of the substrate. The coating contains 7.5-11% Al, 9-16% Cr, 0.1-0.5% Hf, 2-8% Ta, 0.01-0.8% Y, balance Ni along with other elements all chosen to be similar in type and quantity to the substrate composition.

Abstract: An improved high temperature fatigue resistant coating for nickel and cobalt base superalloys having good oxidation and sulfidation resistance. The coating comprises by weight, 8-30% Co, 8-30% Cr, 5-20% Al, 10-60% Ni and 0.05-1.0% of a reactive metal selected from the group of Y, Sc, La and mixtures thereof, balance selected from the group consisting of Pt, Rh, and mixtures thereof, the (Pt+Rh) content being at least 13%.

Abstract: Apparatus for mounting a workpiece to be coated in a cathode sputtering device is disclosed. Various construction details enable effective masking or shielding of a portion of the workpiece from coating deposition. In detailed form a box-like member circumscribes the platform of a blade or vane to be coated and encases the attachment section of the blade or vane.

Abstract: Apparatus and methods for depositing a coating on a substrate are disclosed. Cathode sputtering techniques for rapidly depositing a relatively thick coating, of controllable and variable composition using multiple cathodes on a substrate having a complex geometry are developed. The apparatus employed includes a sputtering chamber formed between a center, post cathode, a hollow cylindrical cathode and supplemental cathode targets of a different composition.

Abstract: A method for producing a cooled sputtering target assembly is described. The resultant target is also described. The material to be sputtered is provided in the form of powder which is hot isostatically pressed in a toroidal metallic container under conditions which promote compaction and bonding of the powder particles to form a fully dense material. The container is then partially removed from the target material except for a remnant around the outer surface. A cooling jacket is then fabricated and attached to the remnant of the container.

Abstract: A cobalt base superalloy is disclosed which has good elevated temperature properties combined with low density and low cost. The alloy has a nominal composition of .9% carbon, 25% chromium, 15% nickel, 7.5% tungsten, 2.2% titanium, 1.2% zirconium, 1.0% iron, balance essentially cobalt, and is substantially free from columbium and tantalum.