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机译:AA6013铝合金通过前后旋转模具(Kobo)变形:通过改变模振频率来控制微观结构和机械性能
Institute of Metallurgy and Materials Science Polish Academy of Sciences;
Institute of Metallurgy and Materials Science Polish Academy of Sciences;
Institute of Non-Ferrous Metals in Gliwice Light Metals Division in Skawina;
Institute of Metallurgy and Materials Science Polish Academy of Sciences;
AGH – University of Science and Technology Faculty of Non-Ferrous Metals Department of Materials Science and Non-Ferrous metals Engineering;
AGH – University of Science and Technology Academic Centre for Materials and Nanotechnology;
Institute of Metallurgy and Materials Science Polish Academy of Sciences;
Institute of Metallurgy and Materials Science Polish Academy of Sciences;
AGH – University of Science and Technology Faculty of Non-Ferrous Metals Department of Materials Science and Non-Ferrous metals Engineering;
Institute of Metallurgy and Materials Science Polish Academy of Sciences;
AA6013 aluminium alloy; KoBo method; Strength; Scanning electron microscopy (SEM); Electron back-scattered diffraction (EBSD); Transmission electron microscopy (TEM);
机译:AA6013铝合金通过前后旋转模具(Kobo)变形:通过改变模振频率来控制微观结构和机械性能
机译:ECAP和KoBo工艺对AA1050铝的组织和力学性能变化的分析/ ECAP I KoBo工艺对A1050铝的组织和力学性能的分析
机译:ECAP和KoBo工艺对AA1050铝的组织和力学性能变化的分析/ ECAP I KoBo工艺对A1050铝的组织和力学性能的分析
机译:通过向前向后旋转模具(Kobo)挤出变形锌的微观结构和纹理
机译:控制新型微电子互连合金的组织和力学性能。
机译:ECAP-Conform技术处理EN AW 6082铝合金的局部力学性能和组织
机译:静态重结晶行为及机械性能变化,锻炼锻造型CO-CR-MO合金中的耐热锻造微观结构