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金属泡沫填充薄壁圆管的轴压载荷-位移关系 被引量:7

RELATION OF LOAD AND DISPLACEMENT FOR THE METAL FOAM-FILLED TUBE DURING THE AXIAL COMPRESSION
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摘要 将泡沫填充圆管的能量吸收视为泡沫与圆管两者之和,基于包含偏心率效应的直链塑性铰模型和Reddy等对Alexander模型的改进结果,对圆管的变形模式进行了更改,以此来反映管壁与金属泡沫之间的相互作用效应,导出了金属泡沫填充圆管的静、动态轴向平均压溃力的表达式.通过理论预测与实验的对比,发现理论预测偏低,但与实验曲线的趋势保持一致,比空管与金属泡沫的平均载荷之和略高一些.此外,泡沫填充圆管的平均压溃力随填充泡沫平台应力的增大而呈线性增加,与已有研究结果及实际情况一致,由此表明了模型的合理性. The energy absorption of metal foam-filled tube was regarded as the sum of that of metal foam and tube.Based on the straight chain plastic hinge model including the effect of eccentricity and the improving results of Alexander model by Reddy and Wall,the deformation mode of tube was modified to reflect the effect of interaction between tube wall and metal foam.Then,the expressions for the mean crushing force of static and dynamic axial compression of metal foam-filled tube were derived.By the comparison between theoretical prediction and experiments,the results predicted theoretically were found to be lower than experimental curve but agree well in the tendency,and slightly higher than the sum of average loads of tube and metal foams.In addition,as the plateau stress of the filling foam increases,the average compressive load of foam-filled tube improves linearly.This is consistent with the existed results and actual situation,proving the rationality of the model in this paper.
作者 卢子兴 赵亚斌 陈伟 谢若泽
机构地区 北京航空航天大学航空科学与工程学院 中国工程物理研究院总体工程研究所
出处 《力学学报》 EI CSCD 北大核心 2010年第6期1211-1218,共8页 Chinese Journal of Theoretical and Applied Mechanics
基金 国家自然科学基金(10572013 10932001) 北京市教育委员会共建项目建设计划(XK100060522)资助项目~~
关键词 金属泡沫填充薄壁圆管 单轴压缩 直链塑性铰模型 载荷-位移关系 偏心率效应 metal foam-filled tube axial crushing straight chain plastic hinge model relation of load and displacement effect of eccentricity
分类号 O347 [理学—固体力学] TB301 [一般工业技术—材料科学与工程]
  • 相关文献

参考文献17

  • 1Reid SR, Reddy TY, Gray MD. Static and dynamic axial crushing of foam-filled sheet metal tubes. International Journal of Mechanical Sciences, 1986, 28(5): 295-322.
  • 2Abramowicz W, Wierzbicki T. Axial crushing of foam-filled columns. International Journal of Mechanical Sciences, 1988, 30(3/4): 263-271.
  • 3Santosa SP, Wierzbicki T. Crash behavior of box columns filled with aluminum honeycomb or foam. Computers & Structures, 1998, 68(4): 343-367.
  • 4Hanssen AG, Langseth M, Hopperstad OS. Static and dynamic crushing of circular aluminium extrusions with aluminium foam filler. International Journal of Impact Engineering, 2000, 24(5): 475-507.
  • 5Hanssen AG, Langseth M, Hopperstad OS. Static crushing of square aluminium extrusions with aluminium foam filler. International Journal of Mechanical Sciences, 1999, 41(8): 967-993.
  • 6Hanssen AG, Langseth M, Hopperstad OS. Static and dynamic crushing of square aluminium extrusions with aluminium foam filler. International Journal of Impact Engineering, 2000, 24(4): 347-383.
  • 7Kavi H, Toksoy AK, Guden M. Predicting energy absorption in a foam-filled thin-walled aluminum tube based on experimentally determined strengthening coefficient. Materials & Design, 2006, 27(4): 263-269.
  • 8桂良进,范子杰,王青春.泡沫填充圆管的轴向压缩能量吸收特性[J].清华大学学报(自然科学版),2003,43(11):1526-1529. 被引量:35
  • 9桂良进,范子杰,王青春.泡沫填充圆管的动态轴向压缩吸能特性[J].清华大学学报(自然科学版),2004,44(5):709-712. 被引量:22
  • 10Song Hongwei, Fan Zijie, Yu Gang, et al. Partition energy absorption of axially crushed aluminum foam-filled hat sections. International Journal of Solids and Structures, 2005,42(9): 2575-2600.

二级参考文献27

  • 1Miller R. A continuum plasticity model for the constitutive and indentation behaviour of foamed metals. International Journal of Mechanical Sciences, 2000, 42:729~754.
  • 2Santosa SP, Wierzbicki T, Hanssen AG, et al. Experimental and numerical studies of foam-filled sections. International Journal of Impact Engineering, 2000, 24:509~534.
  • 3Hanssen AG, Langseth M, Hopperstad OS. Static crushing of square aluminium extrusions with aluminium foam filler. International Journal of Mechanical Sciences, 1999,41:967~993.
  • 4Hanssen AG, Hopperstad OS, Langseth M. Bending of square aluminium extrusions with aluminium foam filler.Acta Mechanica, 2000, 142:13~31.
  • 5Hanssen AG, Langseth M, Hopperstad OS. Optimum design for energy absorption of square aluminium columns with aluminium foam filler. International Journal of Mechanical Sciences, 2001, 43:153~176.
  • 6Chen WG. Experimental and numerical study on bending collapse of aluminum foam-filled hat profiles. International Journal of Solids and Structures, 2001, 38:7919~7944.
  • 7Gibson LJ. Mechanical behavior of metallic foams. Annual Review of Materials Science, 2000, 30:191~227.
  • 8Abramowicz W, Wierzbicki T. Axial crushing of foam-filled columns. International Journal of Mechanical Sciences,1988, 30:263~271.
  • 9Wierzbicki T, Abramowicz W. On the crushing mechanics of thin-walled structures. Journal of Applied Mechanics,1983, 50:727~733.
  • 10White MD, Jones N, Abramowicz W. A theoretical analysis for the quasi-static axial crushing of top-hat and double-hat thin-walled sections. International Journal of Mechanical Sciences, 1999, 41:209~233.

共引文献64

同被引文献132

引证文献7

二级引证文献98

力学学报
2010年 第6期

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