[8] 曾会华, 徐庆华. V 型褶皱夹层板热传导性能的结构优化设计[J]. 中国科技博览, 2014(46):1-3.
[9] Lim C H, Jeon I, Kang K J. A new type of sandwich panel with periodic cellular metal cores and its mechanical performances[J]. Materials & Design, 2009, 30(8):3082-3093.
[10] Karlsson K F, Tomasåström B. Manufacturing and applications of structural sandwich components[J]. Composites Part A Applied Science & Manufacturing, 1997, 28(2):97-111.
[11] Reissner E. On bending of elastic plates. Quar of Appl Math. 1947, 5 (1): 55-68.
[12] 柳春图,李国深,吴永礼.夹层板的弯曲、稳定和振动[M].北京:科学出版社,1977:1-6.
[13] 胡海昌.弹性力学的变分原理及其应用[M].北京:科学出版社,1981:465-488.
[14] Carrera E, Ciuffreda A. Bending of composites and sandwich plates subjected to localized lateral loadings: a comparison of various theories[J]. Composite Structures, 2005, 68(2):185-202.
[15] 刘均, 程远胜. 考虑几何特征的方形蜂窝夹层板总体屈曲载荷求解方法[J]. 工程力学,2009, 26(7):245-250.
[16] 伍莉 , 刘均 , 程远胜 . 方形蜂窝夹芯夹层板弯曲问题的新解法 [J]. 船舶力学 , 2012(8):926-934.
[17] Zhu F, Wang Z, Lu G, et al. Some theoretical considerations on the dynamic response of sandwich structures under impulsive loading[J]. International Journal of Impact Engineering,2010, 37(6):625-637.
[18] Fleck N A, Deshpande V S. The Resistance of Clamped Sandwich Beams to Shock Loading[J]. Journal of Applied Mechanics, 2003, 71(3): 386-401.
[19] 陈林, 李卓, 谢晓忠,等. V 型夹层板声学结构优化设计研究[J]. 船舶, 2013, 24(1):31-35.
[20] 张延昌, 王果, 周红,等. 折叠式夹层板水下爆炸防护性能数值仿真分析[J]. 中国造船, 2013(2):35-44.
[21] Yang M Y, Huang J S. Elastic buckling of regular hexagonal honeycombs with plateau borders under biaxial compression[J]. Composite Structures, 2005, 71(2):229-237.
[22] Libove C, Batdorf S B. A General Small - Deflection Theory for Flat Sandwich Plates[J].Technical Report Archive & Image Library, 1948(899).
[23] Cheng Q H, Lee H P, Lu C. A numerical analysis approach for evaluating elastic constants of sandwich structures with various cores[J]. Composite Structures, 2006, 74(2):226-236.
[24] 李跃军 , 程银水 . 夹层板弯曲问题的 Hoff 理论的解析解 [J]. 工 程 力 学 , 1998,15(1):115-127.
[25] Stein M, Mayers J. A small-deflection theory for curved sandwich plates[J]. Technical Report Archive & Image Library, 1950(1008).
[26] Chang W S, Ventsel E, Krauthammer T, et al. Bending behavior of corrugated-core sandwich plates[J]. Composite Structures, 2005, 70(1):81-89.
[27] Lok T S, Cheng Q H. Elastic Stiffness Properties and Behavior of Truss-Core Sandwich Panel[J]. Journal of Structural Engineering, 2000, 126(5):552-559.
[28] 周艳秋, 洪明. 舰船用夹层板的力学特征与应用[C]// 船舶与海洋工程学术研讨会.2004:79-85.
[29] Bartolozzi G, Baldanzini N, Pierini M. Equivalent properties for corrugated cores of sandwich structures: A general analytical method[J]. Composite Structures, 2014, 108(February 2014):736–746.
[30] Kheirikhah M M, Babaghasabha V. Bending and buckling analysis of corrugated composite sandwich plates[J]. Journal of the Brazilian Society of Mechanical Sciences & Engineering, 2016, 38(8):1-18.
[31] 薛立红, 徐金声. 装配整体式预应力夹层板在工程中的应用[C]// 全国混凝土及预应力混凝土学术交流会. 2003.
[32] 胡宗文, 刘昆, 张延昌, 等. 激光焊接夹层板结构设计程序开发[J]. 舰船科学技术, 2015(1):112-118.