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Chin J Mater Res  2010, Vol. 24 Issue (1): 61-68    DOI:
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The Low Cycle Tensile-torsion Fretting Fatigue Properties of 60Si2Mn Steel
LIU Bing1; HE Guoqiu1; JIANG Xiaosong1; XIANG Xueyuan1; HU Zhengfei1; ZHU Minhao2
1.Shanghai Key Laboratory for R&D and Application of Metallic Functional Materials; School of Materials Science and Engineering; Tongji University; Shanghai 200092
2.National Power Traction Key Laboratory; Southwest Jiaotong University; Chengdu 610031
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LIU Bing HE Guoqiu JIANG Xiaosong XIANG Xueyuan HU Zhengfei ZHU Minhao. The Low Cycle Tensile-torsion Fretting Fatigue Properties of 60Si2Mn Steel. Chin J Mater Res, 2010, 24(1): 61-68.

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Abstract  

The low cycle fretting fatigue properties of 60Si2Mn were investigated in the condition of tensile-torsion multi-axial loading. The results showed that the tensile stress amplitude affect the fretting fatigue performance significantly. With the tensile stress amplitude increasing, the fretting fatigue life reduced nonlinearly, and the cycle softening occurred earlier and completed in less cycles. Oxide wear debris generated on the fretting wear scars have a significant impact on fretting fatigue, which exacerbated fretting wear in the early-stage of fatigue, and eased the wear later. Fretting fatigue crack initialed on the fretting wear scars, propagated along 45o  angle to the axial direction at the existence of tangential shear stress, and eventually left tongue shape protrusion significantly at fracture. The greater the tensile stress amplitude, the bigger the tongue protrusion.
Received:  30 April 2009     
Fund: 

Supported by National Key Basic Research and Development Program of China No.2007CB714704, National
Natural Science Foundation of China No.50771073, and the Program for New Century Excellent Talents in University No.NCET-05-0388.
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