Mechanical properties of fine grain 5083 aluminum alloy.

机译：细晶粒5083铝合金的机械性能。

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Microstructure and mechanical properties of friction stir processed (FSP) 5083-H321 aluminum was studied and compared to that of the parent material. Grain size of the base material was about 20 mum compared to the grain size of 3 mum in the FSP area. Hardness measurements showed a reduction in strength in the FSP area. Tension and compression tests show a reduction of the yield stress in the FSP area. This is in contradiction to the Hall-Patch effect and emphasizes that using the grain size without considering its dislocation density can not accurately predict its yield strength. Shear strength of the FSP area is less than the base material and is in line with the lower hardness reading of that area. Elongation is improved in the FSP area with no degradation of the Ultimate tensile strength. Fatigue life of the FSP area is lower than the parent material due to the faster crack initiation.

机译：研究了搅拌摩擦加工（FSP）5083-H321铝的显微组织和力学性能，并将其与母材进行了比较。与FSP区域中的3μm的粒径相比，基材的粒径为约20μm。硬度测量显示FSP区域强度降低。拉伸和压缩测试表明FSP区域的屈服应力降低了。这与霍尔-帕奇效应相反，并且强调指出，在不考虑位错密度的情况下使用晶粒尺寸无法准确预测其屈服强度。 FSP区域的抗剪强度小于基材，并且与该区域的较低硬度读数一致。 FSP区域的伸长率得到改善，而极限抗拉强度没有降低。由于裂纹萌生较快，FSP区域的疲劳寿命低于母材。

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Eshraghi, Soheil Alexander.;
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University of California, Irvine.;

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授予单位 University of California, Irvine.;
学科 Engineering Materials Science.
学位 Ph.D.
年度 2005
页码 57 p.
总页数 57
原文格式 PDF
正文语种 eng
中图分类工程材料学;
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Mechanical properties of fine grain 5083 aluminum alloy.

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