ZU Guoyin, LIU Jia, LI Xiaobing, SUN Shiliang. Research on the LowVelocity Impact Performance of Aluminum Foam Sandwich Panels[J]. Journal of Northeastern University Natural Science, 2014, 35(11): 1583-1587.
[1]Palano F,Nobile R,Dattoma V,et al.Fatigue behaviour of aluminium foam sandwiches[J].Fatigue & Fracture of Engineering Materials & Structures,2013,36(12):1274-1287. [2]Jasion P,Magnucki K.Global buckling of a sandwich column with metal foam core[J].Journal of Sandwich Structures and Materials,2013,15(6):718-732. [3]Mu Y L,Yao G C,Liang L S,et al.Deformation mechanisms of closedcell aluminum foam in compression[J].Scripta Materialia,2010,63(6):629-632. [4]Basturk S B,Tanoglu M.Development and mechanical behavior of FML/aluminium foam sandwiches[J].Applied Composite Materials,2013,20(5):789-802. [5]Kim Y C,Cho J U.Comparative study between impact behaviors of composites with aluminum foam and honeycomb[J].Current Nanoscience,2014,10(1):23-27. [6]Rajaneesh A,Sridhar I,Rajendran S.Impact modeling of foam cored sandwich plates with ductile or brittle faceplates[J].Composite Structures,2012,94(5):1745-1754. [7]梁晓军,朱勇刚,陈锋.等.泡沫铝芯三明治板的粉末冶金制备及其板/芯界面研究[J].材料科学与工程学报,2005,23(1):77-80.(Liang Xiaojun,Zhu Yonggang,Chen Feng,et al.Research on preparation of aluminum foam sandwich by powder metallurgical method and face plate/foam core interfacial microstructure[J].Journal of Materials Science and Engineering,2005,23(1):77-80.) [8]Mohan K Y,Tick H,Idapalapati S,et al.Impact response of aluminum foam core sandwich structures[J].Materials Science and Engineering A,2011,529(1):94-101. [9]Jing L,Xi C Q,Wang Z H,et al.Energy absorption and failure mechanism of metallic cylindrical sandwich shells under impact loading[J].Materials & Design,2013,52(3):470-480. [10]宋滨娜,祖国胤,姚广春,等.包套轧制粉末冶金法制备泡沫铝三明治板[J].东北大学学报:自然科学版,2011,32(2):277-280.(Song Binna,Zu Guoyin,Yao Guangchun,et al.Preparation of aluminum foam sandwich panels by powderfilled tube rolling[J].Journal of Northeastern University:Natural Science,2011,32(2):277-280.)