On the nature of embrittlement occurring while tempering a Ni-Cr alloy steel

Abstract

Data are presented to show that embrittlement in a Ni-Cr alloy steel proceeds by one mechanism at 925°F and by a different mechanism at 1250°F. The embrittlement occurring at 925°F may be removed completely by reheating to higher temperatures for very short times and has no influence upon further embrittlement at 1250°F. The embrittlement occurring at 1250°F appears related to a permanent structural change which has a significant retarding influence upon subsequent development of embrittlement at 925°F. It is suggested that retrogression phenomena are not necessary to explain embrittlement; on the other hand, segregation of solute atoms to prior austenite and ferrite grain boundaries may provide a better explanation of the occurrence of the two modes of embrittlement.