Development of High-creep-strength Molybdenum and Tungsten Alloys by the Internal Nitriding Process PDF Download
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Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
Substantial increases in the high-temperature creep strength of Mo-Hf alloys can be obtained by internal nitriding. The creep resistance of internally nitrided Mo-1.86 wt % Hf is more than 100 times greater than that of other commercially available molybdenum-base alloys. The HfN precipitates appear to be stable over long times at temperatures near 1600 K. Internally nitrided Mo-Hf alloys appear to be good candidates for fabrication of components of space power systems where the ratio of high-temperature strength to weight is important. They are particularly good candidates for components that can be fabricated from the lower-strength unnitrided alloy and subsequently nitrided to provide high-temperature strength.
Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
Substantial increases in the high-temperature creep strength of Mo-Hf alloys can be obtained by internal nitriding. The creep resistance of internally nitrided Mo-1.86 wt % Hf is more than 100 times greater than that of other commercially available molybdenum-base alloys. The HfN precipitates appear to be stable over long times at temperatures near 1600 K. Internally nitrided Mo-Hf alloys appear to be good candidates for fabrication of components of space power systems where the ratio of high-temperature strength to weight is important. They are particularly good candidates for components that can be fabricated from the lower-strength unnitrided alloy and subsequently nitrided to provide high-temperature strength.
Author: Publisher: ISBN: Category : Aeronautics Languages : en Pages : 1126
Book Description
Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.
Author: H. J. Goldschmidt Publisher: Elsevier ISBN: 1483225739 Category : Technology & Engineering Languages : en Pages : 643
Book Description
Interstitial Alloys covers the significant progress in the development and understanding of the principles and applications of interstitial alloys. Interstitial alloy refers to the existence of a pure metal lattice, which the metal-metal atom bond remains the dominant one, and the non-metal atoms are sufficiently small to be accommodated within the metal lattice without, or with only a limited degree of, distortion from metal-type symmetry. This book contains 10 chapters and begins with a brief introduction to the basic principles of interstitial alloys. The next two chapters describe the physical properties of these alloys, along with their behavior in solid solutions. The remaining chapters deal with a specific interstitial alloy, its structure, physico-chemical properties, preparation, and application. This work specifically considers carbide, nitride, boride, silicide, oxide, hydride, and mixed interstitial alloys. This book will be of value to chemists and physicists.
Author: M. Semchyshen Publisher: ISBN: Category : Languages : en Pages : 101
Book Description
Solid-solution-strengthened tungsten-base alloys were vacuum-arc-cast with relatively large additions of tantalum, Columbium, and/or molybdenum. Machined blanks from the ingots were extruded to round bar stock at temperatures from 3600 to 4000 F. Extrusion recoveries varied considerably from heat-to-heat. Elevated-temperature tensile tests were performed on specimens machined from available extruded bar stock. Strengths were well above those reported for unalloyed tungsten, but were below those resulting from earlier studies on dispersion-strengthened tungsten-base alloys. Molybdenum-base alloy sheets were prepared representing two compositions and three thermomechanical histories. Compositions studied were Mo + 1.25% Ti + 0.3% Zr + 0.1% C (TZC), and Mo + 0.3% Zr + 0.03% C. The thermomechanical variables imposed were solution heat treatments at various stages during the working schedules. Recrystallization behavior, bend transition temperatures, and tensile properties were quite sensitive to working schedules. Earlier work at this Laboratory indicated that in-process solution treatments at temperatures sufficiently high to effect increases in tensile strength usually resulted in increased transition temperatures. The present work has shown that a much more favorable trade-off between strength and transition temperature can result from the proper placement of the solution treatment in the working schedule.
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Author: Robert J. Buzzard
Author: Armour Research Foundation (U.S.)
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Author: H. J. Goldschmidt
Author: Paul F. Sikora
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Author: M. Semchyshen