Research on Tool Lay-out of Hydroforming Process with Multi-cavity Mould for Profiled Cross-section Components

China Mechanical Engineering ›› 2014, Vol. 25 ›› Issue (22): 3093-3097.

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Research on Tool Lay-out of Hydroforming Process with Multi-cavity Mould for Profiled Cross-section Components

Lang Lihui1;Zhang Fan1;Cheng Pengzhi1;Wang Tao2

1.Beihang University,Beijing,100191
2.Shanghai Huizhong Automotive Manufacturing Co., Ltd.,Shanghai,200122

Online:2014-11-25 Published:2014-11-28
Supported by:
National Natural Science Foundation of China（No. 51175024）

异型截面构件一模多腔充液成形模具布局研究

郎利辉1;张帆1;程鹏志1;王韬2

1.北京航空航天大学,北京,100191
2.上海汇众汽车制造有限公司,上海,200122

基金资助:
工信部国际科技合作项目(2010DFA52030）；国家自然科学基金资助项目(51175024)

Abstract

Abstract:

The multi-step hydroforming process of trailing arm which is one of the typical automotive chassis parts was optimized by numerical simulation and experiments. In order to improve forming efficiency and quality consistency, a multi-cavity mould was used and the influences of tool lay-out on hydroforming process were studied. It is a reasonable tool lay-out that hydroforming tool has symmetrical distribution with two “C” shapes compared to other ones. It can improve the stress condition of the tool and parts during hydroforming process and make the quality of the forming parts be guaranteed, as well as enhance the production efficiency.

Key words: hydroforming;trailing arm;multi-cavity mould;tool , lay-out

摘要：

采用数值模拟和试验研究相结合的方法,优化了汽车底盘零件典型代表之一的悬架臂的充液成形多工步工艺路线;为了提高成形效率和成形质量的一致性,采用一模多腔模具结构研究了模具布局对零件充液成形的影响。研究结果表明：相比于其他布局方式，充液成形模具布局采用两个C型模具对称分布时,既可改善零件模具受力状况,保证零件质量,又能提高生产效率,是一种合理的布局方式。

关键词: 充液成形, 悬架臂, 一模多腔模具；模具布局

CLC Number:

TG394

Lang Lihui, Zhang Fan, Cheng Pengzhi, Wang Tao. Research on Tool Lay-out of Hydroforming Process with Multi-cavity Mould for Profiled Cross-section Components[J]. China Mechanical Engineering, 2014, 25(22): 3093-3097.

郎利辉, 张帆, 程鹏志, 王韬. 异型截面构件一模多腔充液成形模具布局研究[J]. 中国机械工程, 2014, 25(22): 3093-3097.

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Research on Tool Lay-out of Hydroforming Process with Multi-cavity Mould for Profiled Cross-section Components

异型截面构件一模多腔充液成形模具布局研究

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