Evolution of microstructure, hardness and contact life of austenitic-martensitic TRIP steel VNS9-Sh under contact fatigue loading

G. S. Sevalnev, T. G. Sevalneva, A. Kolmakov, K. V. Dulnev, I. A. Chirkov
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Abstract

The microstructure, microhardness of the near-surface layer, and contact fatigue of austenitic-martensitic TRIP steel VNS9-Sh (ВНС9-Ш) after tribotechnical test under loads corresponding to maximum normal stresses σZmax = 2500—4000 MPa have been investigated. It was established that an increase in stresses in the contact zone from 2500 to 4000 MPa contributed to an increase in the thickness of the near-surface layer with a hardness more than 290 HV, which had undergone martensitic transformation. The contact durability of VNS9-Sh steel with a decrease in contact stresses from 4000 to 2500 MPa increases by more than 63 times, and the limit of contact endurance of VNS9-Sh steel in the hardened state with a hardness of 220 HV is 2300 MPa, which is 15% higher than that of bearing steel 95X18 -SH with hardness 650 HV.
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接触疲劳载荷下奥氏体-马氏体TRIP钢VNS9-Sh的显微组织、硬度和接触寿命演变
研究了奥氏体-马氏体TRIP钢VNS9-Sh (ВНС9-Ш)在最大法向应力σZmax = 2500 ~ 4000 MPa载荷作用下的显微组织、近表层显微硬度和接触疲劳。结果表明,接触区应力从2500 MPa增加到4000 MPa,导致硬度大于290 HV的近面层厚度增加,发生了马氏体相变。接触应力从4000 ~ 2500 MPa降低后,VNS9-Sh钢的接触耐久性提高了63倍以上,硬度为220 HV的硬化状态下VNS9-Sh钢的接触耐久性极限为2300 MPa,比硬度为650 HV的轴承钢95X18 -SH高15%。
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