Boddu V M, Viswanath D M, Ghosh T K.2,4, 6-Triamino-1,3,5-trinitrobenzene (TATB) and TATB-based formulations—A review[J].Journal of Hazardous Materials, 2010,181(1): 1-8.
[2]
Thompson D G, Brown G W, Olinger B, et al.The effects of TATB ratchet growth on PBX 9502[J].Propellants, Explosives, Pyrotechnics, 2010,35(6): 507-513.
[3]
Maienschein J L, Garcia F.Thermal expansion of TATB-based explosives from 300 to 566K[J].Thermochimica Acta, 2002,384(1-2): 71-83.
[4]
Rizzo H F, Humphrey J R, Kolb J R.Growth of 1,3,5-triamino-2,4,6-trinitrobenzene (TATB) Ⅱ.Control of growth by use of high Tg polymeric binders[J].Propellants, Explosives, Pyrotechnics, 1981,5(6): 27-36.
[5]
Willey T M, Overturf G.Towards next generation TATB-based explosives by understanding voids and microstructure from 10nm to 1cm [C]∥40th International Annual Conference of ICT.Karlsruhe: ICT,2009.
[6]
Willey T M, Buuren T, Lee R I, et al., Changes in pore size distribution upon thermal cycling of TATB-based explosives measured by ultra-small angle X-ray scattering[J].Propellants, Explosives, Pyrotechnics, 2006,31(6): 466-471.
[7]
李敬明, 温茂萍, 黄毅民.热循环对TATB基高聚物粘结炸药性能的影响研究[J].含能材料, 2005,13(4): 208-210.LI Jing-ming, WEN Mao-ping, HUANG Yi-min.Effect of thermal cycling test on the properties of TATB Based PBX[J].Chinese Journal of Energetic Materials(Hanneng Cailiao), 2005,13(4): 208-210.
[8]
Annapragada S R, Sun D, Garimella SV.Prediction of effective thermo-mechanical properties of particulate composites[J].Computational Materials Science, 2007,40: 255-266.
[9]
Banerjee B, Cady C M, Adams D O.Micromechanics simulations of glass-estane mock polymer bonded explosives[J].Modeling and Simulation in Materials Science and Engineering, 2003,11(4): 457-475.
[10]
Pelissou C, Baccou J, Monerie Y, Perales F.Determination of the size of the representative volume element for random quasi-brittle composites[J].International Journal of Solids and Structures, 2009,46: 2842-2855.
[11]
Kanit T, Forest S, Galliet I, et al.Determination of the size of the representative volume element for random composites: Statistical and numerical approach[J].International Journal of Solids and Structures, 2003,40: 3647-3679.
[12]
戴开达, 刘龑龙, 陈鹏万, 等.PBX炸药有效弹性模量的有限元模拟[J].北京理工大学学报, 2012,32(11): 1154-1158.DAI Kai-da, LIU Yan-long, CHEN Peng-wan, et al.Finite element simulation on effective elastic modulus of PBX[J].Transactions of Beijing Institute of Technology, 2012,32(11): 1154-1158.
[13]
贾宪振, 王浩, 王建灵.炸药有效弹性性能的细观尺度仿真预估[J].含能材料, 2013,21(4): 469-472.JIA Xian-zhen, WANG Hao, WANG, JIAN-ling.Mesoscale simularion of effective elastic properties of explosive[J].Chinese Journal of Energetic Materials(Hanneng Cailiao), 2013,21(4): 469-472.
[14]
黄玉成, 胡应杰, 肖继军.TATB基PBX结合能的分子动力学模拟[J].物理化学学报, 2005,21(4): 425-429.HUANG Yu-cheng, HU Ying-jie, XIAO, Ji-jun.Molecular dynamics simulation of binding energy of TATB-based PBX[J].Acta Physico-chimica Sinica, 2005,21(4): 425-429.
[15]
杨永明, 菊杨, 刘红彬, 等.孔隙结构特征及其对岩石力学性能的影响[J].岩石力学与工程学报, 2009,28(10): 2031-2038.YANG Yong-ming, JU Yang, LIU Hong-bin, et al.Influence of porous structure properties on mechanical performances of rock [J].Chinese Journal of Rock Mechanics and Engineering, 2009,28(10): 2031-2038.
[16]
敬仕明, 李明, 龙新平.基于改进Hashin-Shtrikman方法预测PBX有效弹性模量[J].含能材料, 2009,17(6): 664-667.JING Shi-ming, LI Ming, LONG, Xin-ping.On predicting elastic modulus of PBX by modified Hashin-Strikman model[J].Chinese Journal of Energetic Materials(Hanneng Cailiao), 2009,17(6): 664-667.
