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

汽车实用技术 ›› 2022, Vol. 47 ›› Issue (17): 51-55.DOI: 10.16638/j.cnki.1671-7988.2022.017.010

• 设计研究 • 上一篇    

复合材料应用于节能车车架结构的优化设计

黄泳铧,吴涟漪,薛嘉豪,李凯宇,柯志鹏*,朱梓睿,林闽妍   

  1. 广州城市理工学院 汽车与交通工程学院
  • 出版日期:2022-09-15 发布日期:2022-09-15
  • 通讯作者: 柯志鹏
  • 作者简介:黄泳铧(2000—),女,研究方向为车辆工程,E-mail:huangyh19854@163.com。 通讯作者:柯志鹏(1984—),男,硕士,实验师,研究方向为结构力学、仿真分析、自动驾驶,E-mail:3302526017@qq.com。

The Optimized Design of Composite Materials for the Frame Structure of Fuel-efficient Vehicles

HUANG Yonghua, WU Lianyi, XUE Jiahao, LI Kaiyu, KE Zhipeng*, ZHU Zirui, LIN Minyan   

  1. School of Automotive and Traffic Engineering, Guangzhou City University of Technology
  • Online:2022-09-15 Published:2022-09-15
  • Contact: KE Zhipeng

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摘要: 对电动节能车的车架结构进行优化设计,其目的主要围绕轻量化实现节能环保。按照 壳牌汽车环保马拉松比赛规则建立车架模型,并进行轻量化处理,采用 ANSYS Composite Prep/Post 复合材料专用模块对材料为铝蜂窝板的车架进行研究,通过静力学分析得到车架底 板的位移和应力分布;采用 Altair Inspire 得到整体车架在不同工况下行驶的情况;通过以上 结果对车架结构进行优化设计。文章所介绍的复合材料铝蜂窝板在节能车上的应用,为复合 材料在此方面的可行性提供参考价值。

关键词: 轻量化;有限元分析;铝蜂窝板;节能车车架;复合材料;优化设计

Abstract: The purpose of optimizing the frame structure design of electric energy saving vehicle is mainly to improve energy saving and environmental protection by lightweight. The frame model for lightweighting design is established according to the Shell Eco-marathon race rules. The ANSYS Composite Prep/Post composite material module is applied to study the frame of aluminum honeycomb panels, and the displacement and stress distribution of the frame baseplate are obtained through static analysis. Altair Inspire is adopted to obtain the overall driving situations of frame under different working conditions. Based on the above results, the optimum structural design of the frame is conducted. The article introduces the application of composite aluminum honeycomb panels in fuel-efficient vehicles, provides reference value for the feasibility of composite materials in this aspect.

Key words: Lightweighting; Finite element analysis; Aluminum honeycomb panel; Frame structure of fullefficient vehicle; Composite materials; Optimum structural design