考虑三加速度项影响的显式积分格式及其应用
大学出版社,2006:121—122.
LI Qingyang, WANG Nengchao, YI Dayi. Numerical Analysis[M].4th ed. Wuhan: Hua zhong University of Science and Technology Press, 2006:121—122.
[2]桂国庆,何玉教.求解结构动力方程的高精度直接积分法[J]. 天津大学学报,1993,(6):36—45.
GUI Guoqing, HE Yujiao. High accurate direcit integration method for solving the equtions of stractural dynamic[J]. Journal of Tianjin University, 1993, (6):36—45.
[3]翟婉明.车辆轨道耦合动力学 [M].第2版.北京:科学出版社,2001:107—120.
ZHAI Wanming. The Vehicletrack Coupling Dynamic [M].2nd ed.Beijing: Science Press, 2007:107—120.
[4]吴国荣,唐瑞霖,陈福全.结构动力响应分析的一种简便算法[J]. 福建工程学院学报, 2005, 2(3): 13—16.
WU Guorong, TANG Ruilin, CHEN Fuquan. An effective direct integration method for structure dynamic response analysis[J]. Journal of Fujian University of Technology, 2005,2(3): 13—16.
[5]赵秋玲. 非线性动力学方程的精细积分法[J]. 力学与实践, 1998, 20(6): 24—26.
ZHAO Qiuling. The Accurate Integration Method for solving nonlinear dynamics problems[J]. Journal of Mechanics and Practice, 1998, 20(6): 24—26.
[6]裘春航,蔡志勤,吕和祥. 非线性动力学问题的一个显式精细积分算法[J]. 应用力学学报, 2001, 18(2):34—40.
QIU Chunhang, CAI Zhiqin, LV Hexiang. An explicit precise integration algorithm for nonlinear dynamics problems[J].Chinese Journal of Applied Mechanics, 2001, 18(2): 34—40.
[7]王海波,余志武,陈伯望.非线性动力方程的改进分段直接积分法[J]. 工程力学, 2008,9(25):13—22.
WANG Haibo, YU Zhiwu, CHEN Bowang. An improved segmenteddirectitegration method for nonlinar dynamic equations [J]. Journal of Engineering Mechanics, 2008,9 (25):13—22.
[8]范奎武. 结构动力学中的一种直接积分法[J].强度与环境,2002,39(3): 32—38.
FAN Kuiwu. Application of a direct integration method in the structural dynamics [J]. Structure& Environment Engineering ,2002, 39(3):32—38.
[9]М К Тлеулинов. Об одном методе прямого интегрирования уравнений движения при динамическом,деформиированииконструкций летательных[J].аппаратов:М.2008.6c.Деп.вВИНИТИ17, 2008: 626B2008.
[10]任尊松.轮轨多点接触及车辆道岔系统动态相互作用[M].北京:科学出版社,2014:65—66.
REN Zunsong. Wheel/Rail Multipoint Contacts and Vehicle Turnout System Dynamic Interactions[M]. Beijing: Science Press, 2014:65—66.
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