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三氨基三硝基苯基高聚物粘结炸药热力学性质的理论计算研究 被引量:3

Theoretical study of interface thermodynamic properties of 1,3,5-triamino-2,4,6-trinitrobenzene based polymer bonded explosives
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摘要 高聚物粘结炸药(PBX)的热力学性质是用于炸药结构响应、安全性评估、数值模拟分析等的重要参数.由于PBX结构的多尺度特性,完全采取实验方法精细表征这些参数存在巨大的挑战.本文运用第一性原理和分子动力学计算的方法,系统研究了三氨基三硝基苯(TATB)基高聚物粘结炸药的热力学参数和界面热传导性质.利用散射失配模型研究了TATB与聚偏二氟乙烯(PVDF)界面的热传导过程,发现热导率随温度升高而上升,并且在高温情况下接近于定值.基于分子动力学获得的TATB热导率并结合界面热导率,分析了PBX炸药的热导与颗粒尺寸的关系,当颗粒尺寸大于100 nm时,界面热阻对于PBX热导率的影响有限. The thermodynamic properties of insensitive high explosive 1,3,5-triamino-2,4,6-trinitrobenzene(TATB)based polymer bonded explosives(PBXs)are investigated by using first principle calculation and molecular dynamics simulation.The results include the phonon dispersion relations,interface thermal conductances,and thermal conductivities of TATB based PBXs.Both TATB and PVDF structures are optimized,in which the optimized lattice constants accord with previous results.The phonon dispersion relation of TATB and PVDF are calculated based on lattice dynamics.All interatomic force constants are calculated by the finite displacement method(numerical derivatives from perturbed supercells).The calculated phonon dispersion relation of TATB and heat capacity are in general agreement with experimental and theoretical results.The imaginary frequencies are observed in both TATB and PVDF dispersion relation.The imaginary frequencies are mainly due to the smaller calculated supercell size and temperature effect.The phonon mode of TATB and PVDF are assigned at G point.Based on the calculated phonon dispersion,some information including heat capacity,phonon density of states and phonon mode assignment is derived.The TATB possesses 144 phonon modes including 3 acoustic-phonon modes and 141 optical phonon modes.The anylized phonon mode of TATB shows that-NO2 dominates the phonon DOS in low frequency zone,phenyl rings dominate in middle frequency zone and-NH2 dominates in high frequency zone.By analyzing the phonon density of states and capacity,both TATB and PVDF imply that low-frequency vibration dominates the thermal conductivity.The thermal conductivity is determined for TATB by using the equlibrium molecular dynamics method and an established TATB force field.The TATB model is built with 2880 atoms.The structure of TATB is optimized by using molecular mechanics,then this system is relaxed by using a Nose-Hoover thermostat and barostat with a damping factor of 50 fs cin time steps of 0.1 fs.The calcultated thermal conductivity at room temperature shows good agreement with experimental result.The interface thermal conductance of TATB-PVDF is calculated by using a diffusive mismatch model.The interface thermal transport still follows Fourier’s law of heat conduction,and ballistic thermal transport mechanism is not involved.By using the above results,the thermal conductivity of mixture TATB-PVDF system is analized with a simple series model.The particle size smaller than 100 nm significantly suppresses the mixture system thermal conductivity.
作者 范航 何冠松 杨志剑 聂福德 陈鹏万 Fan Hang;He Guan-Song;Yang Zhi-Jian;Nie Fu-De;Chen Peng-Wan(School of Mechatronical Engineering,Beijing Institute of Technology,Beijing 100081,China;Institute of Chemical Materials,CAEP,Mianyang 621900,China)
出处 《物理学报》 SCIE EI CAS CSCD 北大核心 2019年第10期217-226,共10页 Acta Physica Sinica
基金 国家自然科学基金委员会与中国工程物理研究院联合基金(批准号:U1530262 U1330202) 国家自然科学基金(批准号:21875230) 中国工程物理研究院院长基金(批准号:YZJJLX2016005)资助的课题~~
关键词 三氨基三硝基苯 第一性原理计算 分子动力学 热力学参数 triaminotrinitrobenzene first principle calculation molecular dynamics thermodynamic properties
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