[1] |
廖祖伟. 钢板-支撑钢筋-聚氨酯复合材料结构的性能及其在地下防护工程中的应用研究 [D]. 四川:西南交通大学,2007.
LIAO Z W. Study on performance of steel /supported reinforcing bar /polyurethane composite structures and research on the application of underground protective work [D]. Sichuan Province:Southwest Jiaotong University,2007. |
[2] |
杨飞,王志华,赵隆茂. 泡沫铝夹芯板抗侵彻性能的数值研究 [J]. 科学技术与工程,2011,11(15):3378-3382.
YANG F,WANG Z H,ZHAO L M. Numerical studies on aluminum the penetration resistance of foam sandwich board [J]. Science Technology and Engineering,2011,11(15):3378-3382. |
[3] |
VILLANUEVA G R,CANTWELL W J. The high velocity impact response of composite and FML-reinforced sandwich structures [J]. Composites Science and Technology,2004,64(1):35-54. |
[4] |
VAIDYA U K,NELSON S,SINN B,et a1. Processing and high strain impact response of multifunctional sandwich composites [J]. Composite Structures,2001,52(3):429-440. |
[5] |
张明华,赵恒义,谌河水. 泡沫铝夹芯板动态抗侵彻性能的实验研究 [J]. 力学季刊,2008,29(2):241-247.
ZHANG M H,ZHAO H Y,ZHAN H S. Experimental research on anti-penetration properties of sandwich plate with aluminum foam core [J]. Chinese Quarterly of Mechanics,2008,29(2):241-247. |
[6] |
HOO FATT M S,PARK K S. Perforation of honeycomb sandwich plates by projectiles [J]. Composites:Part A,2000,31(8):889-899. |
[7] |
HANSEEN AG,GIRARD Y,OLOVSSON L,et al. A numerical model for bird strike of aluminium foam-based sandwich panels [J]. International Journal of Impact Engineering,2006,32(7):1127-1144. |
[8] |
MEO M,VIGNJEVIC R,MARENGO G. The response of honeycomb sandwich panels under low-velocity impact loading [J]. International Journal of Mechanical Sciences,2005,47(9):1301-1325. |
[9] |
GURUPRASAD S,MHKHERJEE A. Layered sacrificial claddings under blast loading,Part I: analytical studies [J]. International Journal of Impact Engineerin,2000,24(9):957-973. |