EFFECT OF γ→ MARTENSITIC TRANSFORMATION ON THE TRIBOLOGICAL PROPERTIES OF CHROMIUM–MANGANESE AUSTENITIC STEELS

L. Korshunov, N. L. Chernenko
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Abstract

The paper studies the effect of ε (hcp) martensite on the structure and tribological properties of chromium-manganese metastable austenitic steels. The effect of TiC carbide particles on the friction coefficient and wear resistance of Cr–Mn austenitic steels is considered. Structural transformations occurring in the surface layers of the steel in the course of frictional processing are studied via methods of metallography, X-ray diffraction and electron microscopy analysis. It has been found that the formation of nanocrystalline hcp martensite in the steels under study decreases considerably their friction coefficient and increases their resistance to adhesive wear in comparison with the cases of the 40Kh25N20 stable austenitic stainless steel and the 12Kh18N9 austenitic stainless steel, the latter being metastable to γ→α martensitic transformation. The presence of 1–4.5 wt % of TiC carbide particles in the structure of the steels increases the friction coefficient of the materials and decreased their wear resistance. The ε phase in chromium-manganese austenitic steels is more capable of strain-induced hardening under friction than the ε phase in iron-manganese alloys. Accumulation of fine TiC particles of in the surface layer of the titanium-alloyed chromiummanganese austenitic steels has been detected.
γ→马氏体相变对铬锰奥氏体钢摩擦学性能的影响
研究了ε (hcp)马氏体对铬锰亚稳奥氏体钢组织和摩擦学性能的影响。研究了TiC碳化物颗粒对Cr-Mn奥氏体钢摩擦系数和耐磨性的影响。采用金相、x射线衍射和电镜分析等方法研究了钢在摩擦加工过程中表层发生的组织转变。与40Kh25N20稳定奥氏体不锈钢和12Kh18N9奥氏体不锈钢(后者亚稳向γ→α马氏体转变)相比,纳米晶hcp马氏体的形成大大降低了钢的摩擦系数,提高了钢的抗粘着磨损能力。在钢的组织中存在1-4.5 wt %的TiC碳化物颗粒会增加材料的摩擦系数,降低材料的耐磨性。在摩擦作用下,铬锰奥氏体钢中的ε相比铁锰合金中的ε相更容易发生应变诱发硬化。在含钛铬锰奥氏体钢的表层中发现了细小的TiC颗粒的积累。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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