选择压接在容器和矩阵的特殊型材轴对称空心钢坯由C60钢

Volodymyr Kaliuzhnyi, Volodymyr Levchenko, Oleksandr Kaliuzhnyi, Stanislav Sytnyk
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引用次数: 0

摘要

采用有限元方法建立数学模型,研究了沿高度变壁厚轴对称高碳钢空心毛坯特殊型材在容器和基体中的热、半热、冷压接方案。使用的是金属的塑料模型。在热压接和半热压接之前,工件的部分在要变形的高度被加热。通过计算确定了压接毛坯的形状和尺寸,保证了产品的要求尺寸。由于减少了成型过程中摩擦力的影响,使用了一个容器和一个特殊轮廓的矩阵,其变形表面由环形突起制成,因此可以一次通过所考虑的压接选项获得产品。确定变形速率,以保持卷曲过程中的热变形和半热变形模式。建立了变形工具的轴向力与冲床运动的关系以及接触面上比力的分布。冷压的使用提高了产品形状和尺寸的精度,降低了能耗和金属消耗。确定金属的最终应力-应变状态,确定产品的形状和尺寸。根据变形强度分布,对金属结构进行了半热、冷塑性变形加工评价,并预测了金属卷曲后的屈服点。在仿真数据的基础上,进行了冷压接模具设备总体外观设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Options of crimping in a container and matrices of a special profile of axysymmetric hollow billets made of C60 steel
Mathematical models were created using the finite element method and research was carried out on options for hot, semi-hot and cold crimping in a container and matrix of a special profile of axisymmetric hollow blanks made of high-carbon steel with variable wall thickness along the height. A plastic model of metal is used. Before hot and semi-hot crimping, the part of the workpiece was heated at the height to be deformed. The shape and dimensions of the initial blank for crimping were determined by calculation, which ensured the required dimensions of the product. The use of a container and a matrix of a special profile with a deforming surface made with ring protrusions made it possible to obtain a product in one pass for the considered options for crimping due to the reduction of the influence of frictional forces during molding. The rate of deformation was determined to maintain the mode of hot and semi-hot deformation during crimping. The dependence of the axial force on the deforming tool on the movement of the punch and the distribution of specific forces on the contacting surfaces was established. The use of cold pressing leads to an increase in the accuracy of the shape and dimensions of the product, a decrease in energy consumption and metal consumption. The final stress-strained state of the metal, the shape and dimensions of the product are determined. Based on the distribution of deformation intensity, an evaluation of the working of the metal structure by semi-hot and cold plastic deformation was carried out, and the yield point of the metal after crimping was predicted. On the basis of the simulation data, a design of the general appearance of the die equipment for cold crimping was developed.
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