共查询到20条相似文献,搜索用时 78 毫秒
1.
邓春锋邵飞梅鹏程 《锻压装备与制造技术》2016,(6):80-83
本文采用ABAQUS/Explicit动态显式模块对大容积高压气瓶旋压成形工艺进行模拟分析,研究了旋压温度、进给比等工艺参数对旋压成形的影响,确定了气瓶旋压成形的工艺参数范围,对气瓶旋压成形具有指导意义。 相似文献
2.
3.
研究了旋压主轴转速、进给比、吃刀量等工艺参数对旋压成形质量的影响,分析了实际旋压成形试验对薄壁高压气瓶旋压工艺相关参数变化影响规律,得到了薄壁气瓶旋压成形的工艺参数,对薄壁气瓶旋压成形具有指导意义。 相似文献
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
通过对一种典型的回转体零件成形进行工艺分析,提出了旋压成形工艺方案。实验材料为Al6061,在室温下成形。旋压成形此零件需要两道工序,首先根据体积不变原理设计合理的毛坯尺寸,进行第1步预制坯成形,然后进行第2步多道次旋压成形及卷边加工。分析了两步成形工序所需的旋压工装,包括旋轮、芯模和尾顶的选用和设计。选择通用旋轮,安装角为45°;选择多级卷边旋轮,并与普通旋轮集成在数控刀架上。芯模材料为45钢,需进行热处理,工作表面经抛光处理。芯模尺寸参考零件尺寸计算,试旋后根据回弹量进行修模。根据芯模尺寸设计尾顶,第2工序的尾顶对预制坯有校形的作用。 相似文献
15.
Xu Hengqiu Li Mingzhe Zhang Rui Wang Dali Hou Fengyan Li Linlin Fan Guisen Shen Yujing Jilin University Changchun China Changchun Institute of Equipment Technology Changchun 《稀有金属材料与工程》2011,(Z3):78-81
In this paper, the process of thermal conventional spinning of Ti-6Al-4V alloy complex shape shell is studied by experiment. Billet for Ti-6Al-4V alloy board is headed in the spinning process for multi-pass conventional spinning forming. With two spinning mandrel, the first is conventional spinning pre-forming and the second is conventional end forming, vacuum heat treatment after each spinning forming. As results, the mandrel preheating temperature impacts the spinning and the appropriate temperature range plays an important role in the process of spinning. With supplemental heating means and infrared thermometer measurement ensure a stable temperature. Multi-passing thermal spinning Ti-6Al-4V alloy thins the billet thickness, using the feature obtaining the wanting complex shape shell of thick bottom and thin mouth. The spinning track, the number of spinning pass, feed rate affect the billet thinning. During thermal spinning process Ti-6Al-4V alloy rebound severe. The size reduction and feed have impact on the rebound. By modifying the spinning parameters and the mandrel repair to ensure the dimensional accuracy of workpiece. Spinning workpiece has fine grain and high strength. 相似文献
16.
17.
18.
20.
工艺参数对筒形件强力旋压过程的影响 总被引:11,自引:0,他引:11
在分析筒形件强力旋压的变形特点基础上建立了计算机仿真模型,利用计算机模拟技术系统地对筒形件强力旋压过程进行了模拟,主要研究变薄率、旋轮进给量、旋轮成形角、旋轮圆角半径四个关键的工艺秘压成形过程及工件质量的影响,通过依次变化每一个参数得到一系列的塑性力学的分布效果图及相应的曲线图,并对成形缺陷进行了预测,实现了相应的参数优化。 相似文献