正面碰撞下电动汽车驾驶员腿部伤害优化

Leg Injury Optimization for EV Drivers Based on Frontal Collisions

下载PDF

导出

摘要基于2021版C-NCAP (China-New Car Assessment Program),对某款新能源SUV进行正面100%重叠刚性壁障碰撞试验(50FRB),通过50FRB试验提取驾驶员假人的伤害曲线结果显示假人小腿伤害超标。针对这一问题采用Hyperworks和Primer软件搭建该车型约束系统有限元模型,用Ls-Dyna非显性动力学求解器进行运算求解,并将仿真结果与试验结果进行对标。以对标合格的有限元模型为基础,根据分析结果选取优化参数,对安全带限力值,安全带点火时间,假人与座椅发泡之间的摩擦系数,假人与地毯摩擦系数这4个参数采用正交试验设计的方法进行优化,探寻出最优的设计方案。根据优化方案可知,优化后驾驶员假人小腿指数TI (Tibia Index)下降了29.63%,小腿压缩力(Tibia FZ)下降了31.75%。 According to the requirements of the 2021 version of C-NCAP, a 50FRB test of New Energy car was carried out. The injury curve of the driver’s dummy was extracted through the 50FRB test, and the results showed that the Tibia injury of the dummy exceeded the standard. To solve this problem, Hyperworks and Primer software were used to build the finite element model of the vehicle con-straint system. Ls-Dyna is used to display the nonlinear dynamics solver, and the finite element re-sults are benchmarked with the experimental results. Based on the qualified finite element model and the analysis results, selecting optimization parameters of the vehicle constraint system. The four parameters of seat belt limit, seat belt ignition time, friction coefficient between dummy and seat foam, and friction coefficient between dummy and carpet were optimized by orthogonal ex-perimental design to explore the optimal design scheme. According to the optimized results, the optimized tibia index of driver dummy decreased by 29.63%, the tibia FZ decreased by 31.75%.

作者李家俊毛晨曦张健吕俞祥刘会霞

机构地区江苏大学机械工程学院上海埃立曼科技有限公司

出处《建模与仿真》 2023年第4期4160-4170,共11页 Modeling and Simulation

关键词正面碰撞碰撞试验点火时间安全带电动汽车小腿伤害约束系统正交试验设计

分类号 U46 [机械工程—车辆工程]

引文网络
相关文献

参考文献3

1徐珍珍,尹辉俊,崖文瀚,易超,解维杰,陈月亮,陈涛.电动汽车正面碰撞约束系统仿真分析[J].建模与仿真,2023,12(2):813-820. 被引量：1
2丁成,陈伟刚.汽车小偏置正面碰撞对驾驶员小腿伤害的分析[J].汽车工程师,2017(12):42-44. 被引量：1
3田晟.乘员约束系统参数筛选与正交试验优化设计[J].哈尔滨工程大学学报,2015,36(12):1565-1570. 被引量：6

二级参考文献21

1LEE E L, HAYES W C. Occupant accelerations and injury potential during an ambulance-to-curb impact [J]. Forensic Science Intenlational, 2014, 237: e6-e10. 被引量：1
2BEEMAN S M, KEMPERA A R, MADIGAN M L, et al. Occupant kinematics in low-speed frontal sled tests: Human volunteers, Hybrid III ATD, and PMHS [ J ]. Accident Analysis and Prevention, 2012, 47: 128-139. 被引量：1
3VAN HOUTEN R, REAGAN I J, HILTON B W. Increasing seat belt use: Two field experiments to test engineering- based behavioral interventions [ J ]. Transportation Research Part F: Traffic Psychology and Behaviour, 2014, 23: 133- 146. 被引量：1
4KHOUZAM R N, AL-MAWED S, FARAH V, et al. Next- generation airbags and the possibility of negative outcomes due to thoracic injury [J]. Canadian Journal of Cardiology, 2014, 30(4): 396-404. 被引量：1
5LU Huizhen, ANDREEN M, FAUST D, et al. Safety belt and occupant factors influencing thoracic and upper abdomi- nal injuries in frontal crashes [C]//SAE Technical Paper 2011-01-1129, 2011. 被引量：1
6RYB G E, DISCHINGER P C, KLEINBERGER M, et al. Aortic injuries in newer vehicles[J]. Accident Analysis and Prevention, 2013, 59: 253-259. 被引量：1
7ADAM T, UNTAROIU C D. Identification of occupant pos- ture using a Bayesian classification methodology to reduce the risk of injury in a collision[J]. Transportation Research Part C : Emerging Technologies, 2011, 19(6) : 1078-1094. 被引量：1
8WEAVER A A, DANELSON K A, ARMSTRONG E G, et al.Investigation of pulmonary contusion extent and its cor- relation to crash, occupant, and injury characteristics in motor vehicle crashes [J]. Accident Analysis and Preven- tion, 2013, 50: 223-233. 被引量：1
9KOPPEL S, MUIR C, BUDD L, et al. Parents' attitudes, knowledge and behaviours relating to safe child occupant tray- el[J]. Accident Analysis & Prevention, 2013, 51: 18-26. 被引量：1
10YANG Yang, LIOU W W, SHENG J, et al. Shock wave impact simulation of a vehicle occupant using fluid/struc- ture/dynamics interactions[J]. International Journal of hn- pact Engineering, 2013, 52 : 11-22. 被引量：1

共引文献5

1秦璐,刘弘超,孙智源.基于正交试验的乘用车运输网络优化方法[J].运筹与管理,2018,27(12):38-46. 被引量：5
2苏宁,郭克君,吴立国,满大为,朱炯光.基于正交试验的新型反拉式苎麻剥麻机参数优选[J].林产工业,2019,56(12):38-42. 被引量：7
3李俊文,陈玉莲.基于正交试验法的薄壁角接触球轴承优化设计[J].机电工程,2022,39(7):919-926. 被引量：4
4杨凯,吴胜军,胡秋雷.汽车乘员约束系统仿真及其参数优化[J].湖北汽车工业学院学报,2024,38(2):12-16.
5杨群杰,林阿强,王家友,马佳乐,刘高文.粒子分离器结构优化对吞雨性能改进研究[J].哈尔滨工程大学学报,2024,45(7):1305-1313.

1张俊南,刘得雄.25%小偏置碰撞中驾驶员小腿伤害解析[J].北京汽车,2022(6):1-4.
22006-2021年度C-NCAP评价结果[J].世界汽车,2023(7):118-124. 被引量：1
3高志俊,钱宇彬,张绍卫.汽车侧面碰撞下安全气囊对后排乘员的损伤防护研究[J].农业装备与车辆工程,2019,57(12):72-77. 被引量：6
4阮世捷,苏航杰,李海岩,崔世海,贺丽娟,吕文乐.正面100%重叠刚性壁障碰撞试验仿真中三岁儿童乘员的损伤评价[J].汽车工程,2022,44(3):403-411. 被引量：1
5刘灿灿,王友俊,仲衍慧,何成,李春.不同座椅安装方向下Q3损伤研究[J].时代汽车,2022(4):188-190. 被引量：2
6刘磊,何成,谢军,张斌.正碰和偏置试验中的Q3损伤对比研究[J].时代汽车,2021(4):178-179. 被引量：2
7QING QING.Accelerating Green Transition[J].China Today,2023,72(6):46-49.
8李胜琴,杜鹏.考虑驾驶员差异性的安全距离模型优化[J].江苏大学学报（自然科学版）,2023,44(3):249-253. 被引量：2
9唐永治,潘荥春,周益善,桑海浪,陈华晟,潘明章.基于LS-DYNA的甘蔗收获机压蔗辊影响研究[J].拖拉机与农用运输车,2023,50(4):71-77.
10张俊南,余海龙.移动渐进变形壁障碰撞试验中驾驶员小腿伤害研究[J].汽车工程师,2023(4):15-19.

建模与仿真

2023年第4期

浏览历史

内容加载中请稍等...

正面碰撞下电动汽车驾驶员腿部伤害优化

参考文献3

二级参考文献21

共引文献5

相关作者

相关机构

相关主题

浏览历史