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ALLVAC WASPALOY

Alloy Digest, 1992
Abstract ALLVAC WASPALOY, a nickel-base precipitation hardening alloy derives its high strength through the precipitation of gamma prime as a result of the aluminum and titanium additions and through the solid solution strengthening of other component elements. It is produced by vacuum induction melting followed by consummable vacuum are
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UDIMET WASPALOY

Alloy Digest, 1978
Abstract UDIMET WASPALOY is a nickel-base, austenitic, precipitation-hardenable alloy. It features outstanding tensile and stress-rupture strength up to 1400 F and high oxidation resistance up to 1600 F. It is used widely in gas turbine engines, airframe assemblies and missile systems.
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Atlas of Formability: Waspaloy

1992
Abstract : In this investigation, flow behavior of Waspaloy alloy was studied by conducting compression tests over a wide range of temperatures and strain rates. Constitutive relations were determined from the flow behavior, and a dynamic material modeling was conducted on this alloy.
Dan Zhao, Prabir K. Chaudhury
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Super Waspaloy Microstructure and Properties

1979
Waspaloy is currently one of the more widely used alloys for turbine disk applications in the aerospace industry. However, higher engine performance demands by aircraft engine manufacturers have resulted in a number of approaches by material suppliers to upgrade the alloy.
DJ Deye, WH Couts
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Electrical Characterization of Aged Waspaloy Microstructures

Advanced Materials Research, 2006
Non-destructive evaluation (NDE) techniques offer the potential advantage of achieving fast throughput microstructural characterization as well as monitoring that could be extremely valuable in assessing the mechanical integrity of turbine engine components.
V.Siva Kumar   +2 more
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SPECIAL METALS WASPALOY

Alloy Digest, 2001
Abstract Waspaloy (UNS N07001) is a nickel-base, age hardenable superalloy with excellent high-temperature strength and good corrosion resistance to oxidation. Special Metals offers Waspaloy made by vacuum induction melting and vacuum arc refining (VIM/VAR) or by vacuum induction melting and electroslag refining (VIM/ESR). This datasheet
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Mechanical Property and Microstructure of Linear Friction Welded WASPALOY

Metallurgical and Materials Transactions A, 2010
The mechanical properties and microstructural evolution of WASPALOY joined by linear friction welding (LFW) were investigated in this study. In-situ temperature measurements using thermocouple probes indicated exposure of the weld area to a temperature of at least 1400 K (1126 °C).
Chamanfar, A.   +4 more
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Characterization of contact damage of Syalon in contact with Waspaloy

Wear, 1990
Abstract Wear damage in Syalon in contact with nickel alloy (Waspaloy) pads at 600 °C is shown to result in the degradation of strength of specimens subjected to a steady tensile stress. In the absence of this stress, the damage is masked by the machining damage. Two types of test (one tensile and one three-point bending) are described.
Z.P. Wang, C. Ruiz
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Constitutive equations for cyclic plasticity of Waspaloy

International Journal of Plasticity, 1996
An approach is suggested which takes into account the evolution of isotropic and kinematic hardening during cyclic loading. An internal variable is introduced to describe the effect of the starting of the second phase shearing processes during the first cycles.
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Acousto-elastic Measurement of the Fatigue Damage in Waspaloy

Research in Nondestructive Evaluation, 2006
It has long been speculated that second-order effects should prove an effective measure of a material's fatigue and damage state. One such second-order effect is the acousto-elastic effect. In a series of experiments on the nickel-based superalloy waspaloy, the change in the acousto-elastic coefficient of Rayleigh waves was monitored as the material ...
Brian O'Neill, Roman G. Maev
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