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引用次数: 0
摘要
近年来,锻压工艺对降低刀具成本的要求越来越高。这些成本可以通过增加工具的使用寿命来降低。在热成形中,有一种新的增加寿命的可能性,即:工具的物理气相沉积(PVD)涂层。测试涂层效果的参与者是Szechenyi Istvan大学、Raba车轴有限公司、Fraunhofer Schicht- and Oberflachentechnik braunschweik和Westsachsische Hochschule Zwickau的员工。最近,在由机器人服务的生产线上使用的预镦粗——如模锻中经常使用的平行压力板之间的镦粗——被用于进行磨损试验。在磨损试验中,采用考虑摩擦系数和局部位移的运动允许速度场,根据能量模型计算摩擦功。根据预镦粗工件的几何数据,利用前人的研究结果确定了预期的摩擦系数。
Pvd Coating and Up-to-date Wear Test of Hot-Forming Tools
Recently, the requirements for decreasing the tool costs have been increased in forging technologies. These costs could be decreased by increasing the lifetime of the tools. In hot-forming there is a new possibility to increase the lifetime, namely: Physical Vapour Deposition (PVD) coating of the tools. Participants in testing the effects of coating were the employees of the Universtiy Szechenyi Istvan, Raba Axle Ltd., Fraunhofer Institut fur Schicht- und Oberflachentechnik Braunschweig and Westsachsische Hochschule Zwickau. Lately, pre-upsetting used in production lines served by robots – as upsetting made between parallel pressure plates used frequently in die-forging – was used to make wear tests. In the wear tests, the friction work according to the energetic model was calculated by applying a kinematically admissible velocity field, which takes into account the friction coefficient and the local displacements. Expectable friction coefficient – using the results of previous researches – has been determined based on geometrical data of the pre-upset work-piece.
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