Accelerated Formation of an Ultrafine-Grained Microstructure in Closed-Cell Aluminum Foam after Extrusion and Differential Speed Rolling

Kim W. Y.; Kim W. J.; Utsunomiya H.

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Accelerated Formation of an Ultrafine-Grained Microstructure in Closed-Cell Aluminum Foam after Extrusion and Differential Speed Rolling

机译：在挤出和差速轧制后闭孔铝泡沫中超细颗粒微观结构的加速形成

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Plastic deformation by extrusion and high-ratio differential speed rolling on closed-cell aluminum foams resulted in the formation of ultra fine grains in the densified matrix. The microstructure had an average grain size of 1.30 mu m and a fraction of high angle boundaries of 0.7. Under the same processing condition, only dynamic recovery occurred in the bulk aluminum. During deformation of the foam, continuous dynamic recrystallization accelerated at the cell walls due to the occurrence of a high degree of severe plastic deformation there. The bonded interfaces created by pore closure also provided a number of sites of high angle grain boundaries, thereby contributing to the grain re finement.

机译：通过挤出的塑性变形和闭孔铝泡沫上的高比差速速度滚动导致致密化基质中的超细晶粒形成。微观结构的平均晶粒尺寸为1.30μm，高角度边界的一小部分为0.7。在相同的处理条件下，散装铝中仅发生动态恢复。在泡沫的变形过程中，由于在那里发生高度的严重塑性变形，连续动态再结晶在细胞壁上加速。由孔闭合产生的粘合界面也提供了许多高角度晶界的位点，从而有助于谷物RE细节。

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来源
《Materials transactions》 |2017年第2期|共3页
作者
Kim W. Y.; Kim W. J.; Utsunomiya H.;
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作者单位

Osaka Univ Grad Sch Engn Div Mat &

Mfg Sci Suita Osaka 5650871 Japan;

Hongik Univ Dept Mat Sci &

Engn Sangsu Dong 72-1 Seoul 121791 South Korea;

Osaka Univ Grad Sch Engn Div Mat &

Mfg Sci Suita Osaka 5650871 Japan;

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原文格式 PDF
正文语种 eng
中图分类冶金工业;
关键词
electron backscatter diffraction (EBSD); porous materials; extrusion; differential speed rolling; grain refinement; recrystallization;

机译：电子反向散射衍射（EBSD）;多孔材料;挤出;差速速度滚动;晶粒细化;重结晶;

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专利

1. Accelerated Formation of an Ultrafine-Grained Microstructure in Closed-Cell Aluminum Foam after Extrusion and Differential Speed Rolling [J] . Kim W. Y., Kim W. J., Utsunomiya H. Materials transactions . 2017,第2期

机译：在挤出和差速轧制后闭孔铝泡沫中超细颗粒微观结构的加速形成
2. Thickness Reduction Effect in Obtaining Ultrafine-Grained Microstructure from Oxygen-Free Copper Using High-Ratio Differential Speed Rolling [J] . W. J. Kim Journal of nanoscience and nanotechnology . 2011,第2期

机译：高比差速轧制从无氧铜获得超细晶组织的厚度减小效应
3. Fabrication of a thin open-cell Ni foam sheet with a high specific strength and moderate porosity using severe plastic deformation via differential speed rolling [J] . Jeong H. T., Kim H. K., Utsunomiya H., Materials Science and Engineering . 2019,第MARa18期

机译：通过差速轧制通过剧烈的塑性变形来制造具有高比强度和适度孔隙率的开孔镍泡沫薄板
4. Microstructure Evolution of Aluminum Deformed by Combination of KoBo extrusion and Differential Speed Rolling (DSR) [C] . Adelajda BRZOSTOWICZ, Wojciech POLKOWSKI International Conference on Wear Processes . 2015

机译：通过Kobo挤出和差速轧制组合变形铝的微观结构演化（DSR）
5. Mechanical properties of a new hybrid foam: Closed-cell syntactic foam reinforced with an open-cell aluminum metallic foam. [D] . Madawela, Raghvan. 2011

机译：新型混合泡沫的机械性能：用开孔铝金属泡沫增强的闭孔句法泡沫。
6. Early Compressive Deformation of Closed-Cell Aluminum Foam Based on a Three-Dimensional Realistic Structure [O] . Xiong Wan, Kai Zhu, Yanjin Xu, 2019

机译：基于三维逼真结构的闭孔铝泡沫的早期压缩变形
7. The Effect of Shot-Peening Treatment on Microstructure and Corrosion Behavior of Closed-Cell Aluminum Foam [O] . Chengwu Zhang, Yongdong He, Yanhua Chen, 2017

机译：喷丸处理对闭孔铝泡沫组织和腐蚀行为的影响

Accelerated Formation of an Ultrafine-Grained Microstructure in Closed-Cell Aluminum Foam after Extrusion and Differential Speed Rolling

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