[1] | CHENG Shuai, SHI Yingju, YIN Wenjun, LIU Wenxiang, TANG Shiying, ZHANG Dezhi. Influence of aluminum foam lining on deformation of steel cylinders subjected to internal blast loading[J]. Explosion And Shock Waves, 2020, 40(7): 071406. doi: 10.11883/bzycj-2019-0339 |
[2] | Li Xianglong, Wang Jianguo, Zhang Zhiyu, Huang Yonghui. Experimental study for effects of strain rates and joint angles on dynamic responses of simulated rock materials[J]. Explosion And Shock Waves, 2016, 36(4): 483-490. doi: 10.11883/1001-1455(2016)04-0483-08 |
[3] | Ding Yuan-yuan, Yang Li-ming, Wang Li-li. Experimental determination of dynamic constitutive parameters for aluminum foams[J]. Explosion And Shock Waves, 2015, 35(1): 1-8. doi: 10.11883/1001-1455(2015)01-0001-08 |
[4] | Zhang Chao, Xu Song-lin, Wang Peng-fei, Zhang Lei. Deformation and stress nonuniformity of aluminum foam under different impact speeds[J]. Explosion And Shock Waves, 2015, 35(4): 567-575. doi: 10.11883/1001-1455(2015)04-0567-09 |
[5] | Shi Fei-fei, Suo Tao, Hou Bing, Li Yu-long. Strain rate and temperature sensitivity and constitutive model of YB-2 of aeronautical acrylic polymer[J]. Explosion And Shock Waves, 2015, 35(6): 769-776. doi: 10.11883/1001-1455(2015)06-0769-08 |
[6] | Wang Peng-fei, Xu Song-lin, Li Zhi-bin, Hu Shi-sheng. Effect of micro-structure on the strain rate of cellular materials[J]. Explosion And Shock Waves, 2014, 34(3): 285-291. doi: 10.11883/1001-1455(2014)03-0285-07 |
[7] | Fan Zhi-geng, Chen Chang-qing, Wan Qiang. Finite element simulation on the rate-dependent properties of aluminum foams[J]. Explosion And Shock Waves, 2014, 34(6): 742-747. doi: 10.11883/1001-1455(2014)06-0742-06 |
[8] | Hong Liang, Jin Zhi-ren, Deng Zong-wei. Bar diameter effect of minimum loading strain rate in granite impacting tests by SHPB[J]. Explosion And Shock Waves, 2014, 34(3): 328-333. doi: 10.11883/1001-1455(2014)03-0328-06 |
[9] | WANG Peng-fei, HU Shi-sheng. Mechanicalpropertiesoffoamaluminum withdifferentsizes[J]. Explosion And Shock Waves, 2012, 32(4): 393-398. doi: 10.11883/1001-1455(2012)04-0393-06 |
[10] | WEI Yan-peng, YU Gang, DUAN Zhu-ping. Mechanicalpropertiesoflaser-weldeddissimilarstainlesssteelsstructure
atelevatedtemperatureandhighstrainrates[J]. Explosion And Shock Waves, 2011, 31(5): 504-509. doi: 10.11883/1001-1455(2011)05-0504-06 |
[11] | JING lin, WANG Zhi-hua, ZHAO Long-mao, YAN Qing-rong. Dynamicplasticresponseoffoamsandwichbeams
subjectedtoimpactloading[J]. Explosion And Shock Waves, 2010, 30(6): 561-568. doi: 10.11883/1001-1455(2010)06-0561-08 |
[12] | LIU Wei-ming, CHENG He-fa, HUANG Xiao-mei, PAN Zhen-ya. Quasi-static compression behaviors of cylindrical tubes filled with open-cell aluminum foam[J]. Explosion And Shock Waves, 2009, 29(6): 654-658. doi: 10.11883/1001-1455(2009)06-0654-05 |
[13] | LAN Sheng-wei, ZENG Xin-wu. Effect of grain size on dynamic mechanical properties of pure aluminum[J]. Explosion And Shock Waves, 2008, 28(5): 462-466. doi: 10.11883/1001-1455(2008)05-0462-05 |
[14] | LIU Yi-ping, HUANG Xiao-qing, TANG Li-qun, LUO Li-feng. Experimental study on impact behaviors of a new kind of pavement material for concrete bridge deck[J]. Explosion And Shock Waves, 2007, 27(3): 217-222. doi: 10.11883/1001-1455(2007)03-0217-06 |
[15] | SHI Shao-qiu, YU Bing, WANG Li-li. Thermoviscoelastic constitutive equation of PP/PA blends and its rate-temperature equivalence relation at high strain rates[J]. Explosion And Shock Waves, 2007, 27(3): 210-216. doi: 10.11883/1001-1455(2007)03-0210-07 |
[16] | JIANG Bang-hai, ZHANG Ruo-qi. Strain rate-dependent Tsai-Hill strength criteria for a carbon fiber woven reinforced composite[J]. Explosion And Shock Waves, 2006, 26(4): 333-338. doi: 10.11883/1001-1455(2006)04-0333-06 |
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[18] | ZHANG Yi-fen, ZHAO Long-mao. A numerical simulation on the deformation of heterogeneous metallic foams subjected to impact loading[J]. Explosion And Shock Waves, 2006, 26(1): 33-38. doi: 10.11883/1001-1455(2006)01-0033-06 |
[19] | TIAN Jie, HU Shi-sheng. Investigation on mechanical properties of the composites of aluminum foam containing silicone rubber[J]. Explosion And Shock Waves, 2005, 25(5): 400-404. doi: 10.11883/1001-1455(2005)05-0400-05 |
[20] | GUO Wei-guo. Flow stress and constitutive model of OFHC Cu for large deformation, different temperatures and different strain rates[J]. Explosion And Shock Waves, 2005, 25(3): 244-250. doi: 10.11883/1001-1455(2005)03-0244-07 |