A Microstructure-Based Model for Creep of Gamma Prime Strengthened Nickel-Based Superalloys

This paper outlines a microstructure-based model relating gamma prime microstructure and grain size of Ni-base alloys to their creep behavior. The ability of the model to explain creep of multiple superalloys with a single equation and parameter set is demonstrated. The only parameters that are chan...

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Veröffentlicht in:	Journal of engineering materials and technology 2019-01, Vol.141 (1)
Hauptverfasser:	Oruganti, Ramkumar, Shukla, Adarsh, Nalawade, Sachin, Sarkar, Sanket, Sivakumar, K. G. V, Vishwanath, T, Sondhi, Sanjay, Wessman, Andrew, Wei, Daniel, Powell, Andrew, Bain, Kenneth, Schaeffer, Jon, Peck, Arthur, Arnett, Michael, Shastry, Girish, Mastromatteo, Francesco
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container_title	Journal of engineering materials and technology
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creator	Oruganti, Ramkumar Shukla, Adarsh Nalawade, Sachin Sarkar, Sanket Sivakumar, K. G. V Vishwanath, T Sondhi, Sanjay Wessman, Andrew Wei, Daniel Powell, Andrew Bain, Kenneth Schaeffer, Jon Peck, Arthur Arnett, Michael Shastry, Girish Mastromatteo, Francesco
description	This paper outlines a microstructure-based model relating gamma prime microstructure and grain size of Ni-base alloys to their creep behavior. The ability of the model to explain creep of multiple superalloys with a single equation and parameter set is demonstrated. The only parameters that are changed from alloy to alloy are related to the gamma prime characteristics and grain size. This model also allows prediction of creep performance as a function of heat treatment and explains some apparently contradictory data from the literature.
doi_str_mv	10.1115/1.4040554
format	Article
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title	A Microstructure-Based Model for Creep of Gamma Prime Strengthened Nickel-Based Superalloys
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