3D NUMERICAL AND EXPERIMENTAL STUDY ON FLOW CHARACTERISTICS OF MULTI-PASS ECAP WITH AA1050

机译：AA1050多通eCAP流动特性的3D数值和实验研究

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Experiments and numerical simulations were conducted to investigate flow behaviour of the specimen made of commercially pure aluminum alloy (AA1050) during multi-pass equal channel angular pressing (ECAP) for route A up to four passes. Influence of processing conditions on friction and flow behaviour was investigated by measuring load variations, microhardness distributions and microstructure changes depending on the number of passes. It was carefully simulated by employing the finite element technique by tracing the local deformation, determining the load requirement and comparing the local strain with microhardness distributions. Change of the grain size depending on the number of passes was monitored by transmission electron microscopy. The present work clearly showed flow characteristics of the deformed specimen at the central and surface regions due to the effect of the number of passes for the multi-pass ECAP.

机译：进行实验和数值模拟，以研究在多通相等通道角压（ECAP）中的商业纯铝合金（AA1050）制成的样本的流动性能，用于途径最多四次通过。通过测量负载变化，微硬度分布和微观结构，根据通过的数量来研究加工条件对摩擦和流动行为的影响。通过采用有限元技术来仔细模拟局部变形，确定负载要求并将局部应变与微硬度分布进行比较来仔细模拟。通过透射电子显微镜监测根据通过的次数的晶粒尺寸的变化。由于多通eCAP的通过的效果，本作本工作清楚地显示了中央和表面区域的变形样品的流动特性。

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《International conference on advanced materials and processing》|2009年||共7页
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中图分类工程材料一般性问题;
关键词
Multi-pass equal channel angular pressing; finite element analysis; microhardness; strain homogeneity; grain refinement;

机译：多通等通道角压;有限元分析;微硬度;应变均匀性;谷物改进;

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3D NUMERICAL AND EXPERIMENTAL STUDY ON FLOW CHARACTERISTICS OF MULTI-PASS ECAP WITH AA1050

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