ENHANCING TENSILE RESPONSE OF Sn USING Cu AT NANO LENGTH SCALE AND HIGH TEMPERATURE EXTRUSION

机译：纳米长尺度和高温挤压下使用Cu增强Sn的拉伸反应

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In the present study, 1.1 volume percent of nano size copper was incorporated into pure tin using hybrid microwave sintering assisted powder metallurgy route. Microwave sintered samples were extruded both at room temperature and at 230 ℃. Microstrucrural characterization studies were conducted on the extruded samples to investigate the distribution characteristics of secondary phase and grain morphology. Room temperature tensile test results revealed that hot extruded Sn-Cu samples exhibited higher strengths (～41%, in case of 0.2% yield strength and ～38%, in case of ultimate tensile strength) and ductility (～15%) when compared to room temperature extruded samples. On the contrary, the tensile properties of pure tin remained independent of extrusion temperature. An attempt is made in this study to correlate the effect of extrusion temperature on the microstructural evolution and tensile properties of Sn-Cu solder.

机译：在本研究中，使用混合微波烧结辅助粉末冶金方法将1.1体积％的纳米级铜掺入纯锡中。微波烧结样品在室温和230℃下均被挤出。对挤压样品进行了微结构表征研究，以研究第二相的分布特征和晶粒形态。室温拉伸试验结果表明，与之相比，热挤压的Sn-Cu样品具有更高的强度（屈服强度为0.2％时约为41％，极限抗拉强度为38％）和延展性（〜15％）。室温下挤出样品。相反，纯锡的拉伸性能保持与挤出温度无关。本研究试图将挤压温度对Sn-Cu焊料的微观结构演变和拉伸性能的影响联系起来。

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来源
《EPD congress;TMS annual meeting amp; exhibition; 20090215-19;20090215-19; San Francisco, CA(US);San Francisco, CA(US)》|2009年|P.661-668|共8页
会议地点 San Francisco CA(US);San Francisco CA(US)
作者
M. E. Alam; M. Gupta;
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作者单位

Department of Mechanical Engineering National University of Singapore 9 Engineering Drive 1, Singapore 117576;

Department of Mechanical Engineering National University of Singapore 9 Engineering Drive 1, Singapore 117576;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工程材料一般性问题;
关键词
powder metallurgy; extrusion temperature; tensile properties;

机译：粉末冶金挤压温度拉伸性能;

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4. ENHANCING TENSILE RESPONSE OF Sn USING Cu AT NANO LENGTH SCALE AND HIGH TEMPERATURE EXTRUSION [C] . M. E. Alam, M. Gupta TMS Annual Meeting EXhibition . 2009

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机译：用纳米长尺度和高温挤压Cu提高sn的拉伸响应

ENHANCING TENSILE RESPONSE OF Sn USING Cu AT NANO LENGTH SCALE AND HIGH TEMPERATURE EXTRUSION

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