热挤压高碳钢锥形中空制品

V. Kaliuzhnyi, Leyla Aliieva, Oleksandr Yarmolenko, S. Sytnyk
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引用次数: 0

摘要

研究了一种由高碳钢直接反挤压空心圆锥产品的新方法,并确定了工艺设计参数。所考虑的方法可以在一步中获得具有不同高度壁厚的中空产品,而产品上部的壁厚可以大于底部的厚度。初始工件的尺寸是通过使用有限元方法建模来确定的,这确保了在产品成型过程中金属在正向和反向上同时流动,从而减少了变形力。该方法的使用还由于变形工件与工具的接触面积的减小而导致变形工具的加热的减小。应变速率的确定是为了确保挤压的温度间隔。建立了挤压力、从变形工件上移除冲头、将产品推出基体对相应工具运动的依赖关系。发现了产品的最终形状和尺寸以及温度和变形的分布。在挤压力最大的情况下,发现了冲头、基体、顶出器接触面上的比力分布以及变形工件体积上的应力分布。根据获得的数据,直接反向挤压技术可以在通用冲压设备上开发和实施,由于冲压步骤的减少,该设备具有较高的生产率。给出了在基体强制冷却条件下挤压一定尺寸产品的模具设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hot extrusion of high carbon steel cone hollow products
The work is devoted to researching a new method of hot direct-reverse extrusion of hollow conical products from high-carbon steel and determinated parameters for technological design. The considered method makes it possible to obtain in one step hollow products with different wall thickness in height, while the wall thickness in the upper part of the product can be greater than the thickness in the bottom part. The dimensions of the initial workpiece are determined by modeling using the finite element method, which ensures the simultaneous flow of metal in the forward and reverse directions during the process of forming the product, which reduces the deformation force. The use of this method also leads to a decrease in the heating of the deforming tool due to a decrease in the contact area of the deformed workpiece with the tool. The strain rate is determined to ensure the temperature interval of extrusion. The dependencies of the force of extrusion, removal of the punch from the deformed workpiece, pushing the product out of the matrix on the movement of the corresponding tool are established. The final shape and dimensions of the product with the distribution of temperature and deformations were found. For the maximum amount of extrusion force, the distributions of specific forces on the contacting surfaces of the punch, matrix, ejector and stress on the volume of the deformed workpiece were found. According to the obtained data, the technology of direct-reverse extrusion can be developed and implemented on universal press equipment, which has high productivity due to the reduction of the number of stamping steps. The design of the stamp for extruding products of certain sizes with forced cooling of the matrix is given.  
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