[1] 蔡宣明,张伟,徐鹏,等. 一维应力动态加载下战斗部装药力学响应预报模型[J]. 兵工学报,2019, 40(4): 762-768. CAI X M, ZHANG W, XU P, et al. Prediction model of mechanics response of warhead charge under one-dimensional stress dynamic loading [J]. Acta Armamentarii,2019, 40(4): 762-768. (in Chinese) [2] 樊雪飞,李伟兵,王晓鸣,等. 爆轰驱动钽药型罩形成双模毁伤元仿真与试验研究[J]. 兵工学报,2017, 38(10): 1918-1925. FAN X F, LI W B, WANG X M, et al. Simulation and experimental study of tantalum liner to form dual-mode damage element by detonation[J]. Acta Armamentarii,2017, 38(10): 1918-1925. (in Chinese) [3] 孙韬,张国伟,王一鸣,等. 单兵火箭弹炸高优化的数值模拟与试验研究[J]. 兵工学报,2018, 39(4): 681-687. SUN T, ZHANG G W, WANG Y M, et al. Numerical simulation and experimental study on optimization of individual rocket burst height [J]. Acta Armamentarii,2018, 39(4): 681-687. (in Chinese) [4] 李兵,刘念念,陈高杰,等. 水中聚能战斗部毁伤双层圆柱壳的数值模拟与试验研究[J]. 兵工学报,2018, 39(1): 38-45. LI B, LIU N N, CHEN G J, et al. Numerical simulation and experimental research on damage of shaped charge warhead to double-layer columniform shell [J]. Acta Armamentarii,2018, 39(1): 38-45. (in Chinese) [5] 王林,刘永付,李晓辉,等. 大当量杀伤战斗部破片飞散特性试验方法研究[J]. 弹箭与制导学报,2012, 32(6): 68-70. WANG L, LIU Y F, LI X H, et al. Study on the scatter of high capacity head fragments [J]. Journal of Projectiles, Rockets, Missiles and Guidance,2012, 32(6): 68-70. (in Chinese) [6] 马浩文,成芳. 航空深弹实航爆炸试验方法[J]. 四川兵工学报, 2014, 35(3): 35-36, 48. MA H W, CHENG F. Sea trial explosion method of the airborne depth charge [J]. Journal of Sichuan Ordnance,2014, 35(3): 35-36, 48. (in Chinese) [7] 杨云川,朱建军,郑宇,等. 战斗部壳体爆炸破片体/线分形维数研究[J]. 兵工学报,2018, 39(8): 1499-1506. YANG Y C, ZHU J J, ZHENG Y, et al. Research on the volume and line fractal dimensions of fragments from the explosion of warhead shell [J]. Acta Armamentarii,2018, 39(8): 1499-1506. (in Chinese) [8] 曾必强,姜春兰,王在成,等. 伞弹系统落点散布影响因素分析[J]. 弹箭与制导学报,2010, 30(1): 105-108. ZENG B Q, JIANG C L, WANG Z C, et al. Research on the ballistic fall point spread of the parachute-bomb system [J]. Journal of Projectiles, Rockets, Missiles and Guidance,2010, 30(1): 105-108. (in Chinese) [9] GUGLIERI G. Parachute-payload system flight dynamics and trajectory simulation [J]. International Journal of Aerospace Engineering, 2012, 1(1): 1-17.
[10] 杨雪,余莉,史献林,等. 一种改进的降落伞动力学模型[J]. 南京航空航天大学学报,2016, 48(4): 481-485. YANG X, YU L, SHI X L, et al. Improved dynamic model on parachutes [J]. Journal of Nanjing University of Aeronautics & Astronautics,2016, 48(4): 481-485. (in Chinese) [11] WHITE F, DEAN W. A theory of three-dimensional parachute dynamic stability [J]. Journal of Aircraft, 1966, 5(1): 86-92. [12] DOBROKHODOV V N, YAKIMENKO O A, JUNGE C J. Six-degree-of-freedom model of a controlled circular parachute [J]. Journal of Aircraft,2003, 40(3): 482-493. [13] DOHERR K F, SCHILLING H. Nine-degree-of-freedom simulation of rotating parachute systems [J]. Journal of Aircraft,1992, 29(5): 774-781. [14] 宋旭民,彭勇,程文科,等. 一种新的吊挂系统建模方法[J]. 中国空间科学技术,2005,25 (5): 57-61. SONG X M, PENG Y, CHENG W K, et al. A novel modeling method of suspension system [J]. Chinese Space Science and Technology,2005,25(5): 57-61. (in Chinese) [15] 张章,王立武,王文强,等. 降落伞强度空投试验模型的气动-动力学特性仿真[J]. 航天返回与遥感,2018,39(1): 1-10. ZHANG Z, WANG L W, WANG W Q, et al. Numerical simulation on aerodynamic and dynamic characteristics of parachute airdrop test model [J]. Spacecraft Recovery & Remote Sensing,2018, 39(1): 1-10. (in Chinese) [16] 习赵军,李昌禧. 9自由度精确空投系统的建模及仿真[J]. 华中科技大学学报(自然科学版), 2010, 38(6): 8-11. XI Z X, LI C X. Modeling and simulating nine-degree-of-freedom PAS [J]. Journal of Huazhong University of Science and Technology (Natural Science Edition),2010, 38(6): 8-11. (in Chinese) [17] 胡超斌,杨延飞,朱四如. 降落伞两次充气空投过程的建模与仿真[J]. 空军雷达学院学报,2011, 25(3): 209-212. HU C B, YANG Y F, ZHU S R. Modeling and simulation of air-drop process with parachutes' twice inflating [J]. Journal of Air Force Early Warning Academy,2011, 25(3): 209-212. (in Chinese)
第41卷第6期2020 年6月 兵工学报ACTA ARMAMENTARII Vol.41No.6Jun.2020
|