Residual stress and micro-structure of GCr15 steel after multistep shot peening

P. Fu; C. Jiang; Z. Zhang

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Residual stress and micro-structure of GCr15 steel after multistep shot peening

机译：GCr15钢多步喷丸后的残余应力和组织

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Experiments were conducted to investigate the effects of different shot peening (SP) techniques on the residual stress and micro-structure of GCr15 steel by X-ray diffraction (XRD) profile analysis. The results showed that SP induced the martensitic phase transformation, compressive residual stress (CRS) and micro-structure modification within the deformed layer. Under the optimum SP intensity of 0.52+0.25 + 0.16 mmA, the maximum compressive residual stress (MCRS) for martensite attains 745 MPa at the depth of 35 μm while the MCRS for austenite attains 869 MPa at the depth of 50 μm; and the domain size of GCr15 steel attains the minimum value of 9 nm at the top surface; The micro-strain and dislocation density attain the maximum values of 0.0042 and 2.29 × 10~(15) m~(-2) at the top surface respectively.

机译：通过X射线衍射（XRD）曲线分析，研究了不同的喷丸处理（SP）技术对GCr15钢残余应力和微观组织的影响。结果表明，SP引起变形层内的马氏体相变，残余压应力（CRS）和微观结构的改变。在最佳SP强度为0.52 + 0.25 + 0.16 mmA时，马氏体的最大压缩残余应力（MCRS）在35μm的深度处达到745 MPa，而奥氏体的MCRS在50μm的深度处达到869 MPa; GCr15钢的表面尺寸在顶面达到最小值9nm。微应变和位错密度在顶表面分别达到0.0042和2.29×10〜（15）m〜（-2）的最大值。

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《Surface Engineering》 |2014年第11期|共5页
作者
P. Fu; C. Jiang; Z. Zhang;
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正文语种 eng
中图分类金属腐蚀与保护、金属表面处理;
关键词
Shot peening; Residual stress; Phase transformation; Micro-structure;

机译：喷丸;残余应力;相变;微观结构;

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Residual stress and micro-structure of GCr15 steel after multistep shot peening

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