某型SUV汽车尾门模态性能分析及优化OA
Modal performance analysis and optimization of the tailgate for a specific SUV model
共振会显著放大汽车尾门的振动与噪声,严重影响乘坐舒适性,并加速结构疲劳与部件损坏,降低车辆的安全性和可靠性.针对某型运动型多用途汽车(Sport Uticity Vehicle,SUV)尾门存在的共振问题,首先,建立汽车尾门有限元模型,并进行模态分析,定位易引发共振的敏感阶次;其次通过灵敏度分析,得到对汽车尾门第7阶模态频率影响显著的钣金件;然后将钣金件厚度作为设计变量,采用哈默斯雷(Hammersley)采样法进行试验设计(Design Of Experiments,DOE),根据DOE采样数据,采用最小二乘回归和径向基函数拟合得到汽车尾门总质量和第7阶模态频率的响应面模型;最后,以汽车尾门的第7阶模态频率最大和总质量最小为优化目标,采用多目标遗传算法进行优化.结果显示,优化后汽车尾门的一阶扭转频率由33.8 Hz提升至36.2 Hz,避开了与白车身的共振频率,汽车尾门总质量降低了5.4%,将优化后得到的设计变量参数在汽车尾门有限元模型中进行了3种典型工况的验证,结果表明优化目标满足设计要求.
Resonance significantly amplifies the vibration and noise of the tailgate,seriously affecting ride comfort,accelerating structural fatigue and component damage,and reducing the safety and reliability of the vehicle.To address the resonance issue of a certain SUV tailgate,firstly,a finite element model of the tailgate was established and modal analysis was conducted to locate the sensitive orders that were prone to resonance.Then,through sensitivity analysis,the sheet metal parts that significantly affect the seventh modal frequency of the tailgate were identified,and the thickness of the sheet metal parts was used as the design vari-able.Using Hammersley sampling method for Design Of Experiments(DOE),based on DOE sampling data,a response surface model for mass and seventh order modal frequency was fitted using least squares regression and radial basis function.Finally,with the optimization objective of maximizing the seventh modal frequency of the tailgate and minimizing the total mass of the tailgate,a Multi-Objective Genetic Algorithm was used for optimization.The results showed that after optimization,the first-order torsional frequency of the tailgate increased from 33.8 Hz to 36.2 Hz,avoiding resonance frequency with the white body.The total mass of the tailgate decreased by 5.4%.The optimized design variable parameters were verified in three typical operating conditions in the tailgate finite element model,and the results showed that the optimization objectives met the design requirements.
马心坦;李晓威;马权
河南科技大学车辆与交通工程学院,洛阳 471003河南科技大学车辆与交通工程学院,洛阳 471003河南科技大学车辆与交通工程学院,洛阳 471003
交通工程
汽车尾门模态分析响应面模型多目标遗传算法
car tailgatemodal analysisresponse surface modelMulti-Objective Genetic Algorithm(MOGA)
《现代制造工程》 2026 (5)
69-75,113,8
国家科技部专项项目(2017YFD070020402)河南省教育厅自然科学研究项目(15A460019)
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