薄板台阶断面件FCF加工硬化特性

中国机械工程 ›› 2012, Vol. 23 ›› Issue (18): 2238-2242.

薄板台阶断面件FCF加工硬化特性

刘勇;卢险峰;朱会;李湖峰

南昌大学，南昌，330031

出版日期:2012-09-25 发布日期:2012-09-29
基金资助:
国家自然科学基金资助项目(51001058,51210105002)；国家科技支撑计划资助项目(2011BAE22B02)；江西省国际合作项目(2010EHA02000)；江西省铜钨新材料重点实验室开放基金资助项目(2010-WT-08)；江西省自然科学基金资助项目(2010GQC01350)
National Natural Science Foundation of China（No. 51001058,51210105002）;

The National Key Technology R&D Program（No. 2011BAE22B02）;

Jiangxi Provincial International Cooperation Program of China( No. 2010EHA02000);
Jiangxi Provincial Natural Science Foundation of China（No. 2010GQC01350）

Work-hardening Characterization of Flow Control Forming Process for Sheet Metal Part with Step Cross-section

Liu Yong;Lu Xianfeng;Zhu Hui;Li Hufeng

Nanchang University,Nanchang,330031

Online:2012-09-25 Published:2012-09-29
Supported by:

National Natural Science Foundation of China（No. 51001058,51210105002）;

The National Key Technology R&D Program（No. 2011BAE22B02）;

Jiangxi Provincial International Cooperation Program of China( No. 2010EHA02000);
Jiangxi Provincial Natural Science Foundation of China（No. 2010GQC01350）

摘要/Abstract

摘要：

针对一种薄板台阶断面铝板材零件进行了FCF新工艺试验，采用DEFORM有限元软件对该零件冲压、冷锻组合加工变形过程进行了数值仿真，获得了其等效应力和应变分布，并通过显微硬度(HV)表征了试件表面的实际加工硬度特性。试验研究表明：成形过程中变形区及邻域材料的冷变形硬化效应比单一冲压和冷锻时更为显著，在该工艺中表现为冲裁与挤压、压印的迭加复合;零件下平面较上平面相应处的硬度值要高，差值范围在5%~10%之间;零件上下平面硬化效果从台阶内外缘处径向扩展逐步减弱，径向硬化效应区在0~1.4t（t为料厚）范围内。由此提出了一种新的加工硬化模型。



关键词: 等效应力, 等效应变, 显微硬度, 加工硬化模型

Abstract:

A new flow control forming(FCF) of sheet metal process for parts with step cross-section was performed using aluminum sheet materials. The equivalent stress and strain distribution were obtained through deforming simulation of parts during pressing and cold forging multiple processes using DEFORM through finite element analysis. The work-hardening characterization of parts was analyzed through measuring the hardness of part surfaces after forming. Experimental results indicate that the work-hardening effect of parts with step cross-section including triplex processes (blanking, extrusion and coining), is higher than that of parts with sole pressing or cold forging. The hardness in the low surface of parts is higher with the range of 5%~10% than that in the upper surface of parts. The hardening effects of parts in both low and upper surfaces will be weakening gradually within 0~1.4t (t represents thickness), with radial direction starting from inner hole or outer edge. One new work-hardening model was suggested. 

Key words: equivalent stress, equivalent strain;micro hardness, work-hardening model

中图分类号:

TG386.41

刘勇, 卢险峰, 朱会, 李湖峰. 薄板台阶断面件FCF加工硬化特性[J]. 中国机械工程, 2012, 23(18): 2238-2242.

LIU Yong, LEI Jian-Feng, SHU Hui, LI Hu-Feng. Work-hardening Characterization of Flow Control Forming Process for Sheet Metal Part with Step Cross-section[J]. China Mechanical Engineering, 2012, 23(18): 2238-2242.

[1]	胡金花1;宋凯2;熊礼明3. 考虑修正平均等效应力强度因子的焊点缺陷疲劳寿命研究[J]. 中国机械工程, 2020, 31(06): 740-745.
[2]	林建斌;吕涛;黄水泉;胡晓冬;许雪峰. 基于静电微量润滑技术的磨削加工性能试验研究[J]. 中国机械工程, 2018, 29(23): 2783-2791,2798.
[3]	曹雪叶, 赵均海 , 张常光. 基于三剪统一强度准则的厚壁圆筒自增强分析[J]. 中国机械工程, 2017, 28(01): 75-81.
[4]	郑建新, 侯雅丽. 纵-扭复合振动超声深滚加工工艺试验[J]. 中国机械工程, 2016, 27(19): 2636-2640.
[5]	王蔚1,2;刘永贤1;Fuh Y. X. Jerry3. ZrO2对激光烧结Al2O3/SiO2/ZrO2显微组织和显微硬度的影响[J]. 中国机械工程, 2014, 25(6): 727-731.
[6]	解芳1,2;冯长虹3;王召兴3;陈铁军1. 宽温度域工况下汽车水泵O形密封圈的密封性研究[J]. 中国机械工程, 2014, 25(15): 2013-2016,2023.
[7]	史学刚1;鲁世红1;张炜2. 铝合金超声波喷丸成形制件表面完整性研究[J]. 中国机械工程, 2013, 24(22): 3100-3104.
[8]	王志光, 杨文玉, 闫琳. 切削奥氏体不锈钢0Cr18Ni9加工硬化的试验研究[J]. 中国机械工程, 2012, 23(24): 2950-2955.
[9]	雷卫宁1, 王星星2, 刘维桥1, 陈国炎1, 姜博3. 超临界CO2流体微细电铸扩散传质过程建模与数值分析[J]. 中国机械工程, 2012, 23(19): 2351-2356.
[10]	康静, 左敦稳, 孙玉利, 朱永伟. 固结磨料抛光去除均匀性的仿真与实验研究 [J]. 中国机械工程, 2011, 22(7): 803-807.
[11]	张伟文, 郭钢, 黄云, 黄智. 纳米磨削磨屑形成分子动力学仿真研究 [J]. 中国机械工程, 2011, 22(2): 127-132.
[12]	章凯, 李萍, 薛克敏. 高压扭转对铜粉锥形件温压成形的改善 [J]. 中国机械工程, 2011, 22(15): 1875-1879.
[13]	杨开怀, 吴永泉, 陈文哲. 限制模压变形三维有限元模拟 [J]. 中国机械工程, 2010, 21(23): 2877-2881.
[14]	石凤健, 王雷刚, 芦笙. 多轴压缩工艺制备超细晶铜的研究 [J]. J4, 2009, 20(24): 2998-3001.
[15]	强建国, 马晓, 刘振全. π展角区域内压作用涡旋齿齿根疲劳强度简化计算[J]. 中国机械工程, 2008, 19(2): 137-141.