IMPROVED CREEP RESISTANCE AT ELEVATED TEMPERATURES OF ADVANCED AUSTENITIC STAINLESS STEELS.

P. J. Maziasz, R. W. Swindeman, Judith Todd Copley

Research output: Contribution to journalArticle

1 Citation (Scopus)

Abstract

Advanced austenitic stainless steels based on compositional modifications of 316 stainless steel have been developed with creep rupture life times at 700 C which were up to four times that of 17-14 Cu-Mo steel in the solution annealed or mill annealed condition. The strengthening effects can be attributed to precipitate dislocation interactions; these result from the fine, stable distribution of MC and phosphide precipitates produced in the microstructures.

Original languageEnglish (US)
Pages (from-to)189-197
Number of pages9
JournalAmerican Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP
Volume132
StatePublished - 1987

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Creep resistance
Austenitic stainless steel
Precipitates
Creep
Stainless steel
Temperature
Microstructure
Steel

All Science Journal Classification (ASJC) codes

  • Industrial and Manufacturing Engineering
  • Mechanical Engineering

Cite this

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abstract = "Advanced austenitic stainless steels based on compositional modifications of 316 stainless steel have been developed with creep rupture life times at 700 C which were up to four times that of 17-14 Cu-Mo steel in the solution annealed or mill annealed condition. The strengthening effects can be attributed to precipitate dislocation interactions; these result from the fine, stable distribution of MC and phosphide precipitates produced in the microstructures.",
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AU - Todd Copley, Judith

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AB - Advanced austenitic stainless steels based on compositional modifications of 316 stainless steel have been developed with creep rupture life times at 700 C which were up to four times that of 17-14 Cu-Mo steel in the solution annealed or mill annealed condition. The strengthening effects can be attributed to precipitate dislocation interactions; these result from the fine, stable distribution of MC and phosphide precipitates produced in the microstructures.

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