Stability of retained austenite in martensitic high carbon steels. Part I: Thermal stability

Abstract: Thermal stability of retained austenite in 1C-1.5Cr steels with two Si and Mn contents is studied. Time-resolved high resolution synchrotron X-ray radiation and dilatometry are employed. The threshold transformation temperatures, decomposition kinetics, associated transformation strain, as well as the influence of Si and Mn were investigated. The coefficients of linear thermal expansion for both the bulk materials and individual phases are also obtained. The results indicate that an increase in the Mn and Si c… Show more

“…In addition, RA is unstable and is easy to transform into martensite as a result of thermal and mechanical stresses encountered during service [10]. The transformation process is associated with volume expansion, therefore it leads to dimensional variation and distortion of the components and even to failure [11,12].…”

Effect of Cryogenic Treatment on Microstructure and Wear Resistance of Carburized 20CrNi2MoV Steel

“…In addition, RA is unstable and is easy to transform into martensite as a result of thermal and mechanical stresses encountered during service [10]. The transformation process is associated with volume expansion, therefore it leads to dimensional variation and distortion of the components and even to failure [11,12].…”

Effect of Cryogenic Treatment on Microstructure and Wear Resistance of Carburized 20CrNi2MoV Steel

“…During the storage of finished bearing parts, the phenomenon of size expansion caused by the transformation of residual austenite occurs. [8][9][10] Qian et al [11] found that increasing the tempering temperature and tempering time, or supplementing water cooling and cryogenic treatment after quenching plus extending additional tempering time can reduce the retained austenite in GCr15 bearing steel effectively and improve the microstructure stability. Shen et al [12] thought that the main factors affecting the size stability of Cr4Mo4V steel bearing rings are the transformation of residual austenite and the release of residual stress.…”

Effect of Stabilization Treatment on Size and Properties of Austempered M50 Steel

Correlation between the microstructure and hydrogen embrittlement resistance in a precipitation-hardened martensitic stainless steel