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THE EVALUATION OF DENSIFIED LAYER FORMATION MECHANISMS AND THICKNESS DURING DRY SLIDING WEAR OF POROUS POWDER METALLURGY PARTS

机译：多孔粉末冶金件干滑动磨损期间致密层形成机制和厚度的评价

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When a porous powder metallurgy part is worn by a counterbody, intense shear stresses are exerted on the surface and subsurface owing to the both normal load and tangential load (i.e. friction). Hence, the pores near the surface are closed owing to intense plastic deformation in this area and a hardened densified layer is formed. This densified layer has the thickness in which applied stresses are more than the yield stress of the matrix. In this research a porous Distaloy AE material which is a partially alloyed steel powder was worn by AISI 52100 steel in a reciprocating manner. Then subsurface stresses derived from normal and tangential load were calculated. The thickness of densified layer was obtained by comparing these stresses with yield stress of the matrix. The results compare with the metallographic photos and the differences are discussed.

机译：当靶粉末冶金部分磨损时，由于正常负载和切向载荷（即摩擦），强烈的剪切应力在表面和地下施加。因此，由于该区域中的强烈的塑性变形，表面附近的孔隙闭合，并且形成了硬化的致密层。该致密层具有施加应力大于基质的屈服应力的厚度。在该研究中，AISI 52100钢以往复方式佩戴是一种多孔的散铝AE材料，其是部分合金化的钢粉。然后计算来自正常和切向载荷的地下应力。通过将这些应力与基质的屈服应力进行比较来获得致密层的厚度。结果与金相照片相比，讨论了差异。

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《TMS Annual Meeting and Exhibition》|2009年||共11页
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作者
Shaahin Amini; Kavan Hazeli;
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中图分类 TG146.2-53;
关键词
Powder Metallurgy; Porosity; Hertzian Contact; Subsurface Stresses; Densified Layer;

机译：粉末冶金;孔隙率;Hertzian联系人;外表面应力;致密层;

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THE EVALUATION OF DENSIFIED LAYER FORMATION MECHANISMS AND THICKNESS DURING DRY SLIDING WEAR OF POROUS POWDER METALLURGY PARTS

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