摘要
采用先进孔形态(APM)泡沫铝单元为芯体材料,以方形铝管为面板材料制备了复合方管,然后进行准静态压缩试验,并与传统方法制备的泡沫铝以及填充方管进行了比较。结果表明:APM泡沫铝单元与传统泡沫铝、APM泡沫铝单元填充方管与传统泡沫铝填充方管的压缩性能差别不大;APM泡沫铝单元与铝方管的相互作用显著提高了填充方管的压缩性能,并改变了其压缩变形方式,可用于制备复杂结构的泡沫铝夹层结构材料。
Composite square tube was prepared by taking advanced pore morphology (APM) aluminum foamunits as core material and square aluminum tube as panel material, then the quasi-static compression testing was performed, and the comparison between the APM aluminum foam and square tube with the traditional ones. The results show that the compression performance of APM foam aluminum units and traditional foam aluminum was notvery different, and that of APM aluminum foam units fulling square tube and traditional ones also was little difference. The compressive properties of the filling square tube was improved significantly by the interaction ofAPM foam aluminum units square aluminum tube, and the deformation style of the filling square tube was also changed. So, APM aluminum foam units could be used for preparating complex aluminum foam sandwich structurematerials.
出处
《机械工程材料》
CAS
CSCD
北大核心
2013年第7期33-36,共4页
Materials For Mechanical Engineering
基金
辽宁省教育厅科学技术研究(创新团队)资助项目(LT2010045)
中国煤炭工业协会科学技术研究指导性计划项目(MTKJ2010-290)
关键词
先进孔形态(APM)
泡沫铝
压缩性能
advanced pore morphology (APM)
aluminum foam
compressive property
