电沉积纳米镍薄板的超塑微拉深性能被引量：1

Superplastic Micro Deep Drawability of Nanocrystalline Nickel Sheet Fabricated by Electrodeposition

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摘要采用脉冲电沉积工艺制备了厚度为0．1mm的纳米镍薄板，在不同的温度和应变速率下对该薄板进行单向拉伸试验，确定了其超塑性变形的最佳工艺条件，在此基础上进行了纳米镍薄板的微拉深性能实验。实验结果表明：纳米镍薄板的微拉深性能随成形温度的升高而提高；在温度为723K、半球形拉深凸模直径为1mm、拉深速度为1～5mm／min的条件下，均可成功拉深出半球件。采用透射电镜和扫描电镜对拉深变形前的沉积态组织和拉深变形后的微观组织进行了观察比较，结果表明，微拉深后大部分镍晶粒长大到微米量级。根据实验结果，初步探讨了超塑微拉深的主要变形机制。 The nickel sheets with a thickness of 0.1mm were prepared by pulse electrodeposition process. To determine the optimum processing parameters relevant to micro deep drawing, uniaxial tensile tests were carried out at different temperatures and strain rates. Biaxial forming was subsequently performed. It is indicated that the micro deep drawability depends obviously on test temperature, and the chance of fracturing during micro deep drawing decreases with the increasing temperature. The nickel thin sheet can be readily drawn successfully using a hemispherical punch with diameter of 1mm at 723K and punch rates ranging from 0. 1mm/min to 5mm/min. TEM and SEM were also used to examine microstructures of the as-deposited nickel sheet and deformed nickel specimens. After micro deep drawing most nickel grains grow to be micro scale. The deformation mechanisms of nanocrystalline nickel sheet during micro deep drawing be will be discussed herein.

作者张凯锋丁水雷鹍王国峰

机构地区哈尔滨工业大学

出处《中国机械工程》 EI CAS CSCD 北大核心 2007年第8期983-987,共5页 China Mechanical Engineering

基金国家自然科学基金资助项目(50575049)

关键词微拉深纳米镍超塑性显微组织 micro deep drawing nanocrystalline nickel superplasticity microstructure

分类号 TG146.1 [金属学及工艺—金属材料]

作者简介张凯锋，男，1951年生。哈尔滨工业大学材料工程系教授、博士研究生导师。研究方向为塑性变形过程的有限元方法、超塑性成形工艺与理论、微成形技术、纳米材料。出版专著3部，发表论文130余篇。丁水，女，1978年生。哈尔滨工业大学材料工程系博士研究生。雷鹍，男，1974年生。哈尔滨工业大学材料工程系博士研究生。王国峰，男，1973年生。哈尔滨工业大学材料工程系副教授、博士。

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电沉积纳米镍薄板的超塑微拉深性能被引量：1

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