Boyd Sylke, Gravelle Matthew, Politzer Peter
Division of Science and Mathematics, University of Minnesota, Morris, Minnesota 56267, USA.
J Chem Phys. 2006 Mar 14;124(10):104508. doi: 10.1063/1.2176621.
An empirical nonreactive force field has been developed for molecular dynamics (MD)/Monte Carlo simulation of the formation, diffusion, and agglomeration of point defects in the crystal lattice of the alpha modification of hexahydro-1,3,5-trinitro-1,3,5 triazine (RDX) using flexible molecules. Bond stretching and angle bending are represented by Morse and harmonic functions, and torsion by a truncated cosine series. Nonbonded interactions, both inter- and intramolecular, are described by Buckingham potentials separately parametrized. Intermolecular electrostatic interactions are treated via a Coulomb term coupled with a smooth 15.0 A cutoff radius. Parameters were taken in part from earlier published works and were determined partly by fitting to known molecular and crystal properties of RDX. In MD simulations at constant pressure and temperature, the model was able to stabilize and maintain the correct crystal structure, symmetry, and molecular conformation of alpha-RDX. Vibrational frequencies, lattice binding energy and dimensions, coefficients of thermal expansion, and several unusually short intermolecular distances are all reproduced in satisfactory agreement with experimental data.
已经开发了一种经验性非反应力场,用于使用柔性分子对六氢-1,3,5-三硝基-1,3,5-三嗪(RDX)的α变体晶格中点缺陷的形成、扩散和团聚进行分子动力学(MD)/蒙特卡罗模拟。键的拉伸和角度弯曲由莫尔斯函数和谐波函数表示,扭转由截断余弦级数表示。分子间和分子内的非键相互作用分别由单独参数化的白金汉势描述。分子间静电相互作用通过库仑项结合15.0 Å的平滑截止半径来处理。部分参数取自早期发表的作品,部分通过拟合RDX已知的分子和晶体性质来确定。在恒压和恒温的MD模拟中,该模型能够稳定并维持α-RDX的正确晶体结构、对称性和分子构象。振动频率、晶格结合能和尺寸、热膨胀系数以及几个异常短的分子间距离均与实验数据吻合良好。