Driving and Retarding Forces in Tempered Martensite Lath Structure
Pages: 125 - 130
Published: Jan 1, 2016
Abstract
Creep strength of martensitic steels under creep conditions is critically dependent on stability of TMLS. Its transformation to well-defined subgrain structure followed by migration of subgrain boundaries corresponds with loss of creep resistance. The onset of migration of lath/subgrain boundaries in a Co-modified P92-type steels upon creep is attributed to a balance between driving and retarding forces. Both driving forces due to high...
Paper Details
Title
Driving and Retarding Forces in Tempered Martensite Lath Structure
Published Date
Jan 1, 2016
Pages
125 - 130
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