基于内高压成形的副车架管梁逆向重构降内压研究  

作　　者：李欢 李云鹏 雷娇娇 刘宁 余振龙 罗大勇 LI Huan;LI Yun-peng;LEI Jiao-jiao;LIU Ning;YU Zhen-long;LUO Da-yong(Benteng Development Institute,FAW Car Co.,Ltd.,Changchun 130012,China;FAW-Volkswagen Automotive Co.,Ltd.,Changchun 130011,China;Academy for Electromechanical,Changchun Polytechnic,Changchun 130022,China;Changchun Zhiling Optoelectronics Technology Co.,Ltd.,Changchun 130032,China)

机构地区：[1]一汽奔腾轿车有限公司奔腾开发院,吉林长春130012 [2]一汽大众汽车有限公司,吉林长春130011 [3]长春职业技术学院机电学院,吉林长春130022 [4]长春智灵光电科技有限公司,吉林长春130032

出　　处：《塑性工程学报》2024年第9期108-116,共9页Journal of Plasticity Engineering

基　　金：2024年度吉林省科技厅“科创专员(科创副总)”项目;2023年度吉林省高校优秀青年科研创新人才储备库项目;2024年度吉林省教育厅科学研究项目(JJKH20241782KJ)。

摘　　要：在保证成形精度的前提下,为实现内高压成形零件的低成形内压化设计从而降低生产成本,针对某副车架内高压成形管梁,提出了一种正向设计和逆向重构的低成形内压化的设计方法,主要包括应用正向设计技术完成内高压成形管梁结构设计;利用数值模拟技术确定成形内压在205 MPa较高水平时,可以保证管梁的成形精度,高成形内压不利于内高压成形管梁生产成本的控制;利用逆向重构技术对管梁完成逆向重构,其在95 MPa成形内压下的成形精度,即可达到初始模型在205 MPa成形内压下的成形精度水平;依据管梁的逆向重构模型完成样件试制和工艺试验,验证了模拟结果的正确性。相比初始模型205 MPa成形内压下的仿真结果,该方法最终实现成形内压降低53.7%,最大贴模偏差降低25.0%,同时实现最小壁厚增加2.9%;应用内高压成形管梁的副车架总成最终通过了台架试验150%耐久性考核。On the premise of forming accuracy,in order to achieve low hydroforming pressure design of hydroformed parts and reduce production costs,a forward design and reverse reconstruction design method for low hydroforming pressure for a certain subframe hydroforming tubular beam was proposed,which involves applying forward design technology to complete the structural design of the hydroformed tubular beam.It is determined that the hydroforming pressure with higher level of 205 MPa can ensure the forming accuracy of the tubular beam by numerical simulation technology.High hydroforming pressure is not conducive to control the production cost of the hydroformed tububar beam.Using reverse reconstruction technology to complete reverse reconstruction of the tubular beam,its forming accuracy under hydroforming pressure of 95 MPa can reach the forming accuracy level of the initial model under hydroforming pressure of 205 MPa.Based on reverse reconstruction model of tubular beam,sample trial production and process testing were completed,which verificed the correctness of the simulation result.Compared with the simulation results of the initial model under hydroforming pressure of 205 MPa,the tubular beam can meet the forming accuracy requirements under hydroforming pressure of 95 MPa using reverse reconstruction technology,ultimately achieving the reduction of hydroforming pressure by 53.7%,and the reduction the of maximum mold fitting deviation by 25.0%,and the minimum wall thickness increases by 2.9%.The subframe assembly using hydroformed tubular beam ultimately passed the 150% durability assessment in bench tests.

关 键 词：内高压成形管梁 数值仿真 成形内压 正向设计 逆向重构 

分 类 号：TG306[金属学及工艺—金属压力加工]