爆炸载荷冲击下假人下肢的材料参数识别和修正方法

doi:10.3969/j.issn.1000-1093.2021.09.010

兵工学报 ›› 2021, Vol. 42 ›› Issue (9): 1895-1901.doi: 10.3969/j.issn.1000-1093.2021.09.010

爆炸载荷冲击下假人下肢的材料参数识别和修正方法

李明星^1，2，张明¹，陈四春²，李锴²，刘状³，袁溪⁴

(1.南京理工大学机械工程学院, 江苏南京 210094; 2.中国兵器工业集团江山重工研究院有限公司南京研究院分公司, 江苏南京 210014;3.宿迁明远建设有限公司，江苏宿迁 223800; 4.南京医科大学继续教育学院，江苏南京 210029)

上线日期:2021-10-20
通讯作者: 张明（1978—），男，工程师，硕士 E-mail:zlm78111@163.com
作者简介:李明星（1994—），男，工程师，硕士。E-mail:1217280185@qq.com
基金资助:
国家自然科学基金项目（11802140、51405232）

Identification and Correction Method of Material Parameters of Dummy's Lower Limbs Subjected to Impact of Explosive Load

LI Mingxing^1,2， ZHANG Ming¹， CHEN Sichun²， LI Kai²， LIU Zhuang³， YUAN Xi⁴

(1.School of Mechanical Engineering,Nanjing University of Science and Technology,Nanjing 210094,Jiangsu, China;2.Nanjing Research Institute Branch, Jiangshan Heavy Industry Research Institute Co.,Ltd., China North Industries Group Corporation Limited, Nanjing 210094,Jiangsu，China;3.Suqian Mingyuan Construction Engineering Co.,Ltd.,Suqian 223800,Jiangsu, China;4.School of Continuing Education, Nanjing Medical University,Nanjing 210029,Jiangsu,China)

Online:2021-10-20

摘要/Abstract

摘要： 为提高假人在爆炸载荷冲击下的模拟精度，以高速垂向冲击下假人下肢材料本构参数校验寻优为目标，基于爆炸载荷冲击波作用于车身结构产生的结构响应特性，确定模拟爆炸载荷冲击台架的冲击速度。设置不同的冲击速度进行假人下肢冲击实验，获取下肢的冲击力-时间曲线。对下肢的重要材料参数进行实验设计并获取仿真下肢胫骨力峰值，以仿真数据与实验数据误差最小化为目标进行下肢材料参数寻优。通过台架实验与有限元数值仿真校验对材料参数进行优化，得到下肢各组件之间材料本构模型参数的最佳匹配。结果表明：假人下肢模型材料参数优化后的仿真结果与实验结果一致性较好，可为高速垂向冲击下假人下肢材料模型修正提供技术支持。

关键词: 假人下肢, 爆炸载荷冲击, 材料参数, 逆向工程, 模拟冲击台架

Abstract: The constitutive parameters of the dummy's lower limb material subjected to high-speed vertical impact are checked and optimized to improve the simulation accuracy of dummy under the impact of explosive load. In view of the structural response characteristics of vehicle body subjected to explosion shock wave load, the impact velocity of simulated explosion load impacting the test bench is determined. The impact test of dummy’slower limbs is carried out by setting different impact speeds to obtain the impact force-time curves of the lower limbs. The important material parameters of lower limbs are experimentally designed and the peak value of simulated lower limb tibial force is obtained to optimize the lower limb material parameters with the goal of minimizing the error between the simulated data and the experimental data. Through bench test and finite element numerical simulation verification, the material parameters are optimized, and the best matching of the material constitutive model parameters are obtained for the components of the lower limbs. The results show that the simulated results after optimizing the material parameters of the dummy's lower limb model are in good agreement with the test results, which can provide technical support for the revision of the dummy lower limb material model under high-speed vertical impact.

Key words: lowerlimbofdummy, explosiveloadimpact, materialparameter, reverseengineering, simulatedimpactbench

中图分类号:

李明星，张明，陈四春，李锴，刘状，袁溪. 爆炸载荷冲击下假人下肢的材料参数识别和修正方法[J]. 兵工学报, 2021, 42(9): 1895-1901.

LI Mingxing， ZHANG Ming， CHEN Sichun， LI Kai， LIU Zhuang， YUAN Xi. Identification and Correction Method of Material Parameters of Dummy's Lower Limbs Subjected to Impact of Explosive Load[J]. Acta Armamentarii, 2021, 42(9): 1895-1901.

参考文献

［1］ BIRD R.Protection of vehicles against landmines［J］.Journal of Battlefield Technology，2001,4（1）：14-17.
［2］ WANG J,BIRD R,KRSTIC A,et al.Protection of lower limbs against floor impact in army vehicles experiencing landmine explosion［J］.Journal of Battlefield Technology,2001,4(3)：269-286.
［3］ ZHU F,DONG L Q,JIN X,et al.Testing and modeling the responses of hybrid III crash-dummy lower extremity under high-speed vertical loading［J］.Stapp Car Crash Journal, 2015, 59:521-536.
［4］ BIR C,BARBIR A,DOSQUET F,et al.Validation of lower limb surrogates as injury assessment tools in floor impacts due to anti-vehicular land mines［J］.Military Medicine,2008,173(12):1180-1184.
［5］ BAILEY M,CHRISTOPHER J,HENDERSON K,et al.Comparison of hybrid-III and PMHS response to simulated underbody blast loading conditions［C］∥Proceedings of International Research Council on Biomechanics of Injury.Gothenburg, Sweden:Journal of Biomechanical Engineering，2013:158-171.
［6］ KALRA A,SOMASUNDRAM K,SHEN M,et al.Effect of boot compliance in numerical model of Hybrid III in vertical loading［C］∥Proceedings of SAE World Congress & Exhibition.Detroit,MI,US:SAE, 2016.
［7］ RAMASAMY A,MASOUROS S D,NEWELL N,et al.In-vehicle extremity injuries from improvised explosive devices: current and future foci［J］.Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences, 2011, 366(1562)：160-170.
［8］ OWENS B D,KRAGH J F,JOHN F,et al.Characterization of extremity wounds in operation Iraqi freedom and operation enduring freedom［J］.Journal of Orthopaedic Trauma,2007,21(4):254-257.
［9］ WANG J,BIRD R,KRSTIC A.Protection of lower limbs against floor impact in army vehicles experiencing landmine explosion［J］.Journal of Battlefield Technology,2001,4(3):11-15.
［10］ Test methodology for protection of vehicle occupants against anti-vehicular landmine effects［R］. Brussels,Belgium:North Atlantic Treaty Organization，2007.
［11］李明星,王显会,周云波,等.基于神经网络的车辆抗冲击防护组件优化［J］.爆炸与冲击,2020,40(2):024203.
LI M X,WANG X H,ZHOU Y B,et al.Optimization of vehicle anti-shock protection components based on neural network［J］.Explosion and Shock Waves,2020,40(2):024203.(in Chinese)
［12］ SOBOL I M. Global sensitivity indices for nonlinear mathematical models and their Monte Carlo estimates［J］.Mathematics and Computers in Simulation,2014,55(1/2/3):271-280.
［13］ RAJEEV S,KRISHNAMOORTHY C S.Genetic algorithm-based methodology for design optimization of reinforced concrete frames［J］.Computer-Aided Civil and Infrastructure Engineering,2002,13(1):63-74.
［14］魏然,王显会,周云波,等.帕累托最优在车辆底部防护结构设计中的应用研究［J］.兵工学报,2015,36(6):1061-1066.
WEI R,WANG X H,ZHOU Y B,et al.Application of Pareto optimality in the design of vehicle bottom protection structure［J］.Acta Armamentarii,2015,36(6):1061-1066.(in Chinese)
［15］蔡亚. 多目标遗传算法的改进及其变速箱参数优化设计研究［D］.合肥：合肥工业大学，2014.
CAI Y.Research on the improvement of multi-objective genetic algorithm and optimization design of gearbox parameters［D］.Hefei:Hefei University of Technology，2014.(in Chinese)

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爆炸载荷冲击下假人下肢的材料参数识别和修正方法

Identification and Correction Method of Material Parameters of Dummy's Lower Limbs Subjected to Impact of Explosive Load

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