A study of P92 steel's creep-rupture behavior at 625°C revealed distinct relationships between phase chemistry and stress rupture properties across two regions: high-stress/short-term (180-150 MPa for 30-454 h) and low-stress/long-term (140-110 MPa for 2881-10,122 h). Using EPMA-EDS with Multiphase Separation Method (MPSM), researchers analyzed how M23C6 and Laves phase coarsening and chemistry (focusing on Cr, W, and Mo distribution) varied between these regions. This multi-region analysis established a framework for more efficient creep testing and improved extrapolation of short-term results to predict long-term rupture strengths, while providing reference phase chemistry data for future studies.

chromium carbides, chromium steel, creep rupture test, Laves phase, martensite, phase chemistry, stress rupture properties
This content is only available as a PDF.
Copyright © 2011 ASM International. All rights reserved.
2011
ASM International
Topics
Chromium steel Creep testing Laves phase Martensite
Issue Section:
9% Cr Alloys