| REVIEW PAPER |
|
|
|
|
|
| Column Cellular Sandwich Composite Material: Design, Processing and Energy Absorption Property |
| RONG Xiang1, DENG Anzhong2, LI Fei2, LI Fengkai2
|
1 Unit 78322, Puer 665000;
2 Department of Military Facilities, Army Logistic University of PLA, Chongqing 401311 |
|
|
|
|
Abstract Column cellular sandwich composite material is regarded as a new energy absorption materials based on its excellent performance in energy absorption, high strength, and high stiffness. To understand its advantages of energy absorption comprehensively, the basic concept of cellular sandwich composite materials is introduced firstly. The energy absorption mechanism and energy absorption evaluation method of column cellular sandwich composite are expounded, and the design of different geometric configurations of the column cell unit at home and abroad is described secondly. Then, the paper analyzes the enhancement mechanism of co-lumn cell unit after filling with porous materials. The different processing technology of column cellular sandwich composite materials is summarized.The advantages and disadvantages of all kinds of processing technology are compared, and the improvement method is proposed. The paper ends with a prospect of column cellular sandwich composites.
|
|
Published: 10 March 2018
Online: 2018-03-10
|
|
|
|
|
1 金云平.指挥防护工程技术改造口部防护及防震问题[C]∥中国土木工程学会防护工程分会第五届理事会暨第九次学术会议.长春,2004:64.
2 Fang Qin, Gu Bo, Zhang Yadong. Numerical analysis in optimizing the structure of the steel door[J].Journal of PLA University of Science and Technology:Natural Science Edition,2006(6):557(in Chinese).
方秦,谷波,张亚栋.钢结构防护门结构优化的数值分析[J].解放军理工大学学报:自然科学版,2006(6):557.
3 Alexander J M. An approximate analysis of the collapse of thin cylindrical shells under axial loading[J].Quarterly Journal of Mechanics & Applied Mathematics,1960,13(1):10.
4 Magee C L, Thornton P H. Design considerations in energy absorption by structural collapse[J].SAE Paper,1978,780434:15.
5 Wierzbicki T. Crushing analysis of metal honeycombs[J].International Journal of Impact Engineering,1983,1(83):157.
6 Abramowicz W, Jones N. Dynamic axial crushing of circular tubes[J].International Journal of Impact Engineering,1984,2(3):263.
7 Andrews K R F, England G L, Ghani E. Classification of the axial collapse of cylindrical tubes under quasi-static loading[J].International Journal of Mechanical Sciences,1983,25(9-10):687.
8 Zhang Jian, Yin Qun. Study on anti-underwater explosion perfor-mance of tube sandwich plate[J].Journal of Noise and Vibration Control,2007(3):20(in Chinese).
张健,尹群.水下爆炸载荷下圆管夹心板的抗冲击性能研究[J].噪声与振动控制,2007(3):20.
9 Chen W, Wierzbicki T. Relative merits of single-cell, multi-cell and foam-filled thin-walled structures in energy absorption[J].Thin-Walled Structures,2001,39(4):287.
10 Chen W, Nardini D. Experimental study of crush behavior of sheet aluminum foam-filled sections[J].International Journal of Crashworthiness,2000,5(4):447.
11 Kim H S. New extruded multi-cell aluminum profile for maximum crash energy absorption and weight efficiency[J].Thin-Walled Structures,2002,40(4):311.
12 Zhang X, Cheng G, Zhang H. Theoretical prediction and numerical simulation of multi-cell square thin-walled structures[J].Thin-Walled Structures,2006,44(11):1185.
13 Hou S, Li Q, Long S, et al. Design optimization of regular hexago-nal thin-walled columns with crashworthiness criteria[J].Finite Elements in Analysis & Design,2007,43(67):555.
14 Yin H, Wen G, Liu Z, et al. Crashworthiness optimization design for foam-filled multi-cell thin-walled structures[J].Thin-Walled Structures,2014,75(75):8.
15 Updike D P. On the large deformation of a rigid-plastic spherical shell compressed by a rigid plate[J].Journal of Manufacturing Science & Engineering,1972,94(3):949.
16 Updike D P, Kalnins A. Axisymmetric behavior of an elastic spherical shell compressed between rigid plates[J].Journal of Applied Mechanics,1970,37(3):635.
17 Gupta N K, Sheriff N M, Velmurugan R. Experimental and theore-tical studies on buckling of thin spherical shells under axial loads[J].International Journal of Mechanical Sciences,2008,50(3):422.
18 Gupta N K, Venkatesh. Experimental and numerical studies of dynamic axial compression of thin walled spherical shells[J].International Journal of Impact Engineering,2004,30(8-9):1225.
19 Zhang Wei,Yang Huiwei,Guan Wenbo,et al. Deformation of metallic thin-walled hollow spheres under dynamic compression[J].Journal of Engineering Mechanics,2016,33(2):242(in Chinese).
张威,杨会伟,管文博,等.冲击作用下薄壁金属空心球压缩变形研究[J].工程力学,2016,33(2):242.
20 Yu Wei, Li Huijian, Liang Xi, et al. The metal hemisphere shell compression mechanical properties of the experiment and simulation study[J].Journal of Engineering Mechanics,2013,30(11):260(in Chinese).
余为,李慧剑,梁希,等.金属半球壳压缩力学性能实验和模拟研究[J].工程力学,2013,30(11):260.
21 Dai Meiling, Liu Cong, Dai Yuntong,et al. Study on visualization of continuous deformation measurement of thin-walled spheres compressed by rigid ball[J].Acta Optica Sinica,2015(11):111(in Chinese).
戴美玲,刘聪,戴云彤,等.薄壁球壳受刚性球面压缩的可视化连续变形测量研究[J].光学学报,2015(11):111.
22 Wu Cheng, Zhang Xiangrong, Fang Yanhe, et al. Investigation on the dynamic displacement response of thin spherical aluminium shell under blasting shock loading of explosive charge[J].Transactions of Beijing Institute of Technology,2007,27(3):192(in Chinese).
吴成,张向荣,方延和,等.空中爆炸冲击波作用下薄壁铝球壳体大变形响应的实验研究[J].北京理工大学学报,2007,27(3):192.
23 Ghamarian A, Zarei H R, Abadi M T. Experimental and numerical crashworthiness investigation of empty and foam-filled end-capped conical tubes[J].Thin-Walled Structures,2011,49(10):1312.
24 Ghamarian A, Abadi M T. Axial crushing analysis of end-capped circular tubes[J].Thin-Walled Structures,2011,49(6):743.
25 Ghamarian A, Zarei H R, Farsi M A, et al. Experimental and numerical crashworthiness investigation of the empty and foam-filled conical tube with shallow spherical caps[J].Strain,2013,49(3):199.
26 Tasdemirci A, Sahin S, Kara A, et al. Crushing and energy absorption characteristics of combined geometry shells at quasi-static and dynamic strain rates: Experimental and numerical study[J].Thin-Walled Structures,2015,86:83.
27 Tasdemirci A, Kara A, Turan K, et al. Dynamic crushing and energy absorption of sandwich structures with combined geometry shell cores[J].Thin-Walled Structures,2015,91:116.
28 Tasdemirci A, Kara A, Turan K, et al. Effect of heat treatment on the blast loading response of combined geometry shell core sandwich structures[J].Thin-Walled Structures,2016,100:180.
29 Santosa S P, Wierzbicki T. Experimental and numerical studies of foam-filled sections[J].International Journal of Impact Engineering,2000,24(5):509.
30 Cao J, Khajepour A, Gan N, et al. Crashworthiness of functionally graded density aluminum foam-filled tapered thin-walled structures[J].Journal of Automotive Safety & Energy,2016,7(1):35.
31 Song H W, Fan Z J, Yu G, et al. Partition energy absorption of axially crushed aluminum foam-filled hat sections[J].International Journal of Solids & Structures,2004,42(9):2575.
32 Wang Q, Fan Z, Gui L. A theoretical analysis for the dynamic axial crushing behaviour of aluminium foam-filled hat sections[J].International Journal of Solids & Structures,2006,43(7):2064.
33 Chen Zhen, Ruan Yi. Thin-wall metal tube parts processing techno-logy research[J].Mechanical and Electrical Engineering,2014(7):15(in Chinese).
陈珍,阮毅.薄壁金属管类零件加工工艺的研究[J].机电工程技术,2014(7):15.
34 Yuan Junrong. Study on the stamping simulation technology used in structure design of front panel upside[D].Changchun:Jilin University,2011(in Chinese).
袁俊荣.冲压成形数值模拟技术在前围上部结构设计中的应用研究[D].长春:吉林大学,2011.
35 张玉龙,李长德.塑料配方与制备手册[M].北京:化学工业出版社,2005:466.
36 Wang Miao, Wang Lucai. Research status and development prospects of aluminum foam and composite structures[J].Materials Review A:Review Papers,2015,29(3):81(in Chinese).
王淼,王录才.泡沫铝及其复合结构的制备和应用现状[J].材料导报:综述篇,2015,29(3):81.
37 Zhang Min, Zu Kuangying, Yao Guangchun,et al. Preparation of aluminum foam sandwich panels and their impact on performance study[J].Journal of Nonferrous Metal Engineering,2008,60(3):14(in Chinese).
张敏,祖国胤,姚广春,等.泡沫铝夹芯板制备及其冲击性能研究[J].有色金属工程,2008,60(3):14.
38 Zhao Hui. Metal welding technology and its application study[J].Journal of Electronics,2013(14):191(in Chinese).
赵辉.金属焊接技术及其应用探讨[J].电子制作,2013(14):191. |
|
|
|
渝公网安备50019002502923号 © Editorial Office of Materials Reports.
2018, Vol. 32 
