Microstructure, Thermal and Electrical Properties of Ultrafine Aluminium

机译：超细铝的组织，热和电性能

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In article the influence of large effective deformation on microstructure, thermal diffusivity and electrical conductivity is described. The tested material was monocrystalline aluminum deformed by the cyclic extrusion compression (CEC) method. The evolution of misorientation distribution, sub(grain) size was determined by using electron back scattered diffraction (EBSD) technique. The second part of the study was to evaluation of thermal diffusivity by using the laser-flash method. The LFA 427 laser-flash facility were applied. The electrical properties as electrical impedance was made by impedance bridge RLC type. The obtained results show that with increase of deformation the insignificant decrease in thermal diffusivity and electrical conductivity occurred.

机译：在文章中描述了大的有效变形对微观结构，热扩散率和电导率的影响。被测试的材料是通过循环挤压压缩（CEC）方法变形的单晶铝。通过使用电子背散射衍射（EBSD）技术确定了取向错误分布，亚（晶粒）尺寸的演变。研究的第二部分是使用激光闪光法评估热扩散率。应用了LFA 427激光闪光设备。用阻抗电桥RLC型确定作为电阻抗的电特性。所得结果表明，随着变形的增加，热扩散率和电导率发生了显着的降低。

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来源
《Materials structure amp; micromechanics of fracture》|2010年|p.326-329|共4页
会议地点 Brno(CZ);Brno(CZ)
作者
Kinga Rodak; Grzegorz Moskal; Andrzej Grabowski;
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作者单位

Silesian University of Technology, department of Materials Science, institute of Physics 40-019 Katowice, Krasiriskiego 8 str, Poland;

Silesian University of Technology, department of Materials Science, institute of Physics 40-019 Katowice, Krasiriskiego 8 str, Poland;

Silesian University of Technology, department of Materials Science, institute of Physics 40-019 Katowice, Krasiriskiego 8 str, Poland;

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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
severe plastic deformation; ultrafine grain structure; EBSD; TEM; physical properties;

机译：严重的塑性变形；超细晶粒结构EBSD； TEM;物理性质;

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Microstructure, Thermal and Electrical Properties of Ultrafine Aluminium

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