高能破冰弹水下破冰过程数值模拟
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摘要
以黄河凌汛期采用爆破法破冰防凌为背景,利用有限元软件ANSYS/LS-DYNA建立了高能破冰弹水下破冰动态响应模型,对高能破冰弹在侵彻冰盖瞬间弹体各部位的应力分布、弹体引信延期时间以及弹体在水下爆炸破碎冰盖过程等主要破冰参数进行了数值模拟,并在黄河破冰防凌现场进行了相同当量药包的模拟破冰试验。模拟试验显示药包放置在水下4.5 m左右对冰盖破碎范围最大。研究结果可为高能破冰弹弹体的优化设计与利用迫击炮发射高能破冰弹进行黄河爆破法破冰排凌作业提供理论支持。
The dynamic response model was established using large-scale finite element software ANSYS/LS-DYNA for the ice breaking process by high-energy icebreaking bomb as the routine approach to ice prevention during the ice flood season of the Yellow River. Numerical simulation were carried out on stress distribution within the bomb at the moment of ice sheet penetrating,the delay time of bomb detonator and the floating ice sheet breaking process by underwater bomb.The on-site trial tests for ice sheet breaking and ice prevention at the Yellow River were conducted using the bomb with same explosive equivalent. It shows the largest ice sheet breaking scale when the bomb is placed 4. 5 m underneath the bottom of floating ice sheet. The study can provide theoretical support for the optimized design of high-energy icebreaking bomb and ice breaking operation for ice sheet breaking and ice prevention at the Yellow River.
The dynamic response model was established using large-scale finite element software ANSYS/LS-DYNA for the ice breaking process by high-energy icebreaking bomb as the routine approach to ice prevention during the ice flood season of the Yellow River. Numerical simulation were carried out on stress distribution within the bomb at the moment of ice sheet penetrating,the delay time of bomb detonator and the floating ice sheet breaking process by underwater bomb.The on-site trial tests for ice sheet breaking and ice prevention at the Yellow River were conducted using the bomb with same explosive equivalent. It shows the largest ice sheet breaking scale when the bomb is placed 4. 5 m underneath the bottom of floating ice sheet. The study can provide theoretical support for the optimized design of high-energy icebreaking bomb and ice breaking operation for ice sheet breaking and ice prevention at the Yellow River.
引文
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[6]王呼和,佟铮,邢永明,等.无限冰介质中爆炸裂纹扩展机理与数值模拟[J].实验力学,2009,24(5):493-498.Wang Huhe,Tong Zheng,Xing Yongming,et al.Expansion mechanism and numerical simulation of the explosion crack in an infinite ice medium[J].Journal of Experimental Mechanics,2009,24(5):493-498.
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[10]Petrovic J J.Review Mechanical properties of ice and snow[J].Journal of Materails Science,2003,38(8):1-6.
[2]佟铮,马万珍,王宁.黄河凌汛期高能破冰弹的初步设计[J].爆破器材,2004,33(4):34-37.Tong Zheng,Ma Wanzhen,Wang Ning.The primary design of the high-power ice-breaking bombs on the ice run of Yellow River[J].Explosive Materials,2004,33(4):34-37.
[3]闫世春,佟铮,王呼和,等.冰体标准爆破漏斗试验研究与数值模拟[J].工程爆破,2011,17(1):12-14.Yan Shichun,Tong Zheng,Wang Huhe,et al.Experimental study and numerical simulation on standard blasting crater of ice[J].Engineering Blasting,2011,17(1):12-14.
[4]佟铮,杨旭升,薛培兴.黄河冰凌爆破机理研究[C]//中国爆破新技术Ⅲ:第十届全国工程爆破学术会议.2012:57-66.
[5]邢永明,佟铮,王呼和.水下成组药包爆炸作用下冰盖动态响应数值模拟[J].实验力学,2010,25(3):299-304.Xing Yongming,Tong Zheng,Wang Huhe.Numerical simulation of ice cover dynamic response subjected to group charge underwater explosion[J].Journal of Experimental Mechanics,2010,25(3):299-304.
[6]王呼和,佟铮,邢永明,等.无限冰介质中爆炸裂纹扩展机理与数值模拟[J].实验力学,2009,24(5):493-498.Wang Huhe,Tong Zheng,Xing Yongming,et al.Expansion mechanism and numerical simulation of the explosion crack in an infinite ice medium[J].Journal of Experimental Mechanics,2009,24(5):493-498.
[7]尚晓江,苏建宇,王化峰,等.ANSYS/LS-DYNA动力分析方法与工程实例[M].2版.北京:中国水利水电出版社,2008.
[8]王金峰.河冰力学性能及其对桥墩撞击力的研究[D].哈尔滨:东北林业大学,2007.
[9]Holmquist T J,Johnson G R.Response of boron carbide subjected to high-velocity impact[J].International Journal of Impact Engineering,2008,35(8):742-752.
[10]Petrovic J J.Review Mechanical properties of ice and snow[J].Journal of Materails Science,2003,38(8):1-6.
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