Rolling Eccentric Steel Rings on an Industrial Radial–Axial Ring Rolling Mill

偏心率(行为) 心轴 戒指(化学) 古怪的 工程类 过程(计算) 机械工程 横截面(物理) 有限元法 结构工程 材料科学 计算机科学 物理 量子力学 法学 有机化学 操作系统 政治学 化学
作者
Mirko Gröper,Marten Quadfasel,David Bailly,Gerhard Hirt
出处
期刊:Journal of manufacturing and materials processing [Multidisciplinary Digital Publishing Institute]
卷期号:8 (2): 75-75
标识
DOI:10.3390/jmmp8020075
摘要

Various industries, including mechanical engineering, utilize steel rings featuring variable cross-sectional profiles, such as eccentric rings. Presently employed methods for producing eccentric rings possess drawbacks like restricted geometries, significant material wastage or uneven microstructures. The radial–axial ring rolling process serves to create seamless rolled steel rings with near-net-shaped cross-sections. A novel technique involves achieving eccentricity by dynamically adjusting the mandrel’s position during the ring rolling process. This method’s fundamental feasibility has previously been showcased using a blend of oil clay and a labor test bench. Transferring the possibility of manufacturing eccentric rings on industrial radial–axial ring rolling mills would expand the product range of ring manufacturers without encountering drawbacks associated with existing manufacturing processes. The objective of this paper is to demonstrate the basic feasibility of the concept of an industrial radial–axial ring rolling mill. In the first step, FEA simulation studies were carried out to develop the rolling strategy and estimate the achievable eccentricity on the institute’s radial–axial ring mill. Subsequently, the rolling strategy was implemented on an industrial ring rolling mill with the help of a unique technology module programmed in C++. Finally, an eccentric ring was ring rolled and compared with the FEA simulation, and the reproducibility was demonstrated to be successful.
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