网站首页期刊简介编委会过刊目录投稿指南广告合作征订与发行联系我们English
圆柱齿轮镦挤成形约束分流的数值模拟
英文标题:Numerical simulation of restrained split-flow in upsetting-extrusion forming of cylinder gear
作者:薛勇 张治民 王科  
单位:中北大学材料加工工程系 中北大学材料加工工程系 中北大学材料加工工程系 山西太原030051 山西太原030051 山西太原030051 
关键词:圆柱齿轮  镦挤成形  约束分流  数值模拟 
分类号:TG61;TB115
出版年,卷(期):页码:2007,32(3):115-119
摘要:
借助Msc/superform软件对圆柱齿轮镦挤成形中的约束孔分流、约束轴分流的成形过程进行了三维有限元模拟,分析变形过程中一些有代表性的状态点的速度云图、应力云图以及载荷曲线,得到成形过程中一些瞬间点的状态云图。研究表明,约束分流不仅可以使变形继续进行,而且合适施加约束,能够保证齿轮角部金属的填充;约束孔分流可以保证齿轮角部金属的填充,但是,成形力会随着成形过程的进行而增加较大;约束轴分流在齿轮角部金属填充饱满后,成形力增加的幅度不是很大。
With the aid of software of Msc/superform,the 3D finite element simulation of the forming course of restrained hole and axis split-flow in upsetting-extrusion forming of cylinder gear were carried out.Then,some velocity cloud charts,equivalent stress cloud charts and load curve were analyzed.In the forming process,some instantaneous points condition cloud charts was obtained,which might have certain instruction significance to the actual production design.The research result shows that the restrained split-flow is able to make deformation to be kept going and appropriately exerting constraint can guarantee the metal filling in the corner of gear.The restrained hole split-flow can also guarantee the metal filling in the corner of gear,but forming force will be bigger with the forming process being in progress and for the restrained axis split-flow,after the metal filling in the corner of gear,forming force increase is not very big.
基金项目:
作者简介:
参考文献:
[1]孙宗强,田福祥.直齿圆柱齿轮精锻研究的现状及发展趋势[J].青岛建筑工程学院学报,2000,21(4):98-101.
[2]滕宏春,任先玉,曾宪文,等.直齿轮分流挤压精密成形试验研究[J].农业机械学报,2001,32(1):99-101.
[3]田柱平,郝南海,卢志勇.塑性成形过程三维刚塑性有限元模拟软件开发[J].太原重型机械学院学报,1998,19(12):281-289.
[4]张清萍,赵国群,栾贻国,等.直齿圆柱齿轮精锻成形工艺及三维有限元模拟[J].塑性工程学报,2003,10(1):13-19.
[5]张清萍,赵国群,栾贻国.直齿圆柱齿轮精锻成形工艺改进及模拟分析[J].锻压技术,2004,29(4):11-13.
[6]仇明侠,张治民,张宝红.齿轮温挤精密成形工艺数值模拟[J].锻压技术,2005,30(3):53-55
[7]Chitkara N R,Bhuttr M A.Near-net shape forging of spurgearforms:an analysis and some experiments[J].Int.J.Mech.Sci.,1996,39(8-9):891-916.
服务与反馈:
文章下载】【加入收藏
《锻压技术》编辑部版权所有

中国机械工业联合会主管  中国机械总院集团北京机电研究所有限公司 中国机械工程学会主办
联系地址:北京市海淀区学清路18号 邮编:100083
电话:+86-010-82415085 传真:+86-010-62920652
E-mail: fst@263.net(稿件) dyjsjournal@163.com(广告)
京ICP备07007000号-9