Rolling Contact Fatigue Testing of Thermomechanically Processed M-50 Steel.

Abstract

The influence on rolling contact fatigue behavior of thermomechanical processing (TMP) to refine grain and soluble carbide size was studied in this work on VIM-VAR M-50 steel. Material was processed (austenitized and warm-rolled) following the procedures developed by Larson, with subsequent austenitization times and temperature (for final hardening) based on Bres' data. Rolling contact fatigue testing indicates virtual equivalence of the as-received (spheroidize-annealed) and TMP specimens evaluated, with the TMP material clearly no better than the as-received condition in terms of fatigue life. This is believed to be the result of one or both of the following: (a) austenitization (hardening) of TMP material at too long a holding time, with a microstructural equalization occuring between conditions; and (b) voids existing at the ends of insoluble carbides in both as-received and TMP material, which act as possible sites for crack initiation in the matrix. Keywords: M-50 steel, Rolling contact fatigue, Thermomechanical processing, Heat treatment, Carbides, Soluble carbides, Insoluble carbides, Retained Austenite, Weibull distribution, Cavitation.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 1984

Accession Number

ADA153640

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