主办:陕西省汽车工程学会
ISSN 1671-7988  CN 61-1394/TH
创刊:1976年

Automobile Applied Technology ›› 2025, Vol. 50 ›› Issue (12): 50-56.DOI: 10.16638/j.cnki.1671-7988.2025.012.009

• Design and Research • Previous Articles    

Multi-Step Stamping Forming CAD/CAE Collaborative Simulation for Vehicle Body Structural Components

HU Liyong1 , WANG Li1,2, HU Tangfei1 , YANG Yihao1   

  1. 1.School of Automotive, Xuancheng Vocational Technical College; 2.ETRC of Maanshan Automobile Stamping Mold Advanced Design
  • Published:2025-06-24
  • Contact: HU Liyong

车身结构件多步冲压成形 CAD/CAE 协同仿真

胡李勇 1,王利 1,2,胡堂飞 1,杨懿豪 1   

  1. 1.宣城职业技术学院 汽车学院; 2.马鞍山市汽车冲压模具先进设计工程技术研究中心
  • 通讯作者: 胡李勇
  • 作者简介:胡李勇(1981-),男,硕士,讲师,研究方向为汽车技术
  • 基金资助:
    宣城职业技术学院 2024 年度院级自然科学研究项目(KJ202408);2024 年度院级质量工程(2024jnds01)

Abstract: Aiming at the characteristics of complex body beam components widely used in multi-step stamping processing but with high technical implementation difficulty, this paper takes typical complex body structural components as the research object, systematically analyzes the basic processes of multi-step stamping forming of the components, and clarifies the key difficulties and technical points in the forming process. On this basis, an innovative 12-process nesting diagram for the components is designed, and comprehensive process analysis is carried out around this nesting diagram. By constructing a full-process finite element model, the simulation mathema-tical model of the incremental loading finite element method is deeply expounded. Through precise calculation, the full-process finite element simulation analysis results meeting engineering requirements are finally obtained. The effectiveness and rationality of the CAD/CAE simulation scheme are comprehensively verified through actual stamping tests and product quality inspections. This study provides a set of feasible nesting process design and full-process finite element simulation analysis methods for the progressive die development process of body structural components. It not only deepens the research dimension of component formability but also provides important theoretical and practical guidance for the manufacturing process optimization and quality control of complex automotive beam components.

Key words: complex body components; multi-step stamping; CAD/CAE technology; progressive die; finite element simulation

摘要: 针对复杂车身梁类制件在多步冲压加工中应用广泛但技术实施难度大的特点,文章以 典型复杂车身结构件为研究对象,系统剖析了制件多步冲压成形的基本工序,明确了成形过 程中的关键难点与技术要点。在此基础上,创新性设计了制件的 12 工序排样图,并围绕该排 样图开展了全面的工艺分析。通过构建全工序有限元模型,深入阐述了增量加载有限元法的 仿真数学模型,经精确计算,最终获得了满足工程要求的全工序有限元仿真分析结果;通过 实际冲压试验与产品质量检测,对 CAD/CAE 仿真方案的有效性和合理性进行了全面验证。 该研究为车身结构件的级进模开发过程提供了一套可行的排样工艺设计与全工序有限元仿真 分析方法,不仅深化了制件成形性的研究维度,更从理论与实践层面为汽车复杂梁类制件的 制造工艺优化及质量控制提供了重要指导。

关键词: 复杂车身结构件;多步冲压加工;CAD/CAE 技术;级进模;有限元仿真