Effects of cell size on compressive properties of aluminum foam 被引量：3

Effects of cell size on compressive properties of aluminum foam

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摘要 The effects of cell size on the quasi-static and dynamic compressive properties of open cell aluminum foams produced by infiltrating process were studied experimentally. The quasi-static and dynamic compressive tests were carried out on MTS 810 system and SHPB(split Hopkinson pressure bar) respectively. It is found that the elastic moduli and compressive strengths of the studied aluminum foam are not only dependent on the relative density but also dependent on the cell size of the foam under both quasi-static loading and dynamic loading. The foams studied show a significant strain rate sensitivity, the flow strength can be improved as much as 112%, and the cell size also has a sound influence on the strain rate sensitivity of the foams. The foams of middle cell size exhibit the highest elastic modulus, the highest flow strength and the most significant strain rate sensitivity. The effects of cell size on the quasi-static and dynamic compressive properties of open cell aluminum foams produced by infiltrating process were studied experimentally. The quasi-static and dynamic compressive tests were carried out on MTS 810 system and SHPB（split Hopkinson pressure bar） respectively. It is found that the elastic moduli and compressive strengths of the studied aluminum foam are not only dependent on the relative density but also dependent on the cell size of the foam under both quasi-static loading and dynamic loading. The foams studied show a significant strain rate sensitivity, the flow strength can be improved as much as 112%, and the cell size also has a sound influence on the strain rate sensitivity of the foams. The foams of middle cell size exhibit the highest elastic modulus, the highest flow strength and the most significant strain rate sensitivity.

作者曹晓卿王志华马宏伟赵隆茂杨桂通

机构地区 College of Materials Science and Engineering Institute of Applied Mechanics

出处《中国有色金属学会会刊：英文版》 EI CSCD 2006年第2期351-356,共6页 Transactions of Nonferrous Metals Society of China

基金 Project(90205018) supported by the National Natural Science Foundation of China

关键词晶胞尺寸泡沫铝压缩性渗透过程 aluminum foam infiltrating process cell size compressive properties strain rate sensitivity

分类号 TB383.4 [一般工业技术—材料科学与工程]

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