Determination of rolls diameter for screw-rolling mills

A. Budnikov, B. Romantsev, E. Kharitonov
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引用次数: 4

Abstract

The problem of determining the maximum diameter of working rolls is typical for screw rolling mills that have more than two working rolls. Precise determination of the working roll diameter is especially important for three-roll mills, which are widely used in such industries as rolling and calibration, and radial-shear rolling mills operating at large feeding and rolling angles. Typically, the diameter of working rolls is determined in a constructive way or using 3D modeling. These methods are quite complex, require special skills, and do not allow investigation of the influence of main tuning mill factors such as feeding and rolling angles. There is a calculated method for determining the diameter of the roll barrel for a three-roll mill, but it is applicable for mills working at feeding angles of up to 10 degrees and rolling angles of 4  –  7  degrees. In conditions of radial-shear rolling, this method is not used, since it does not take into account the influence of feeding and rolling angles on which the conditions of the deformation process, manufacturability and quality of the products depend. The article considers a more general method for determining the diameter of working rolls of three or more rolling mills, taking into account their rotation at the feeding and rolling angles. The relationship between diameter of the rolls, their number, minimum diameter of the deformation center, the feeding and rolling angles are shown, which makes it possible to evaluate the structural capabilities of both three and four-roll rolling mills. The results of the presented work make it possible to expand the possibilities for further studies of the technology and equipment of three-roll screw rolling mills for the production of solid and hollow products using completely new deformation modes for the processes of rolling out hollow products of their reduction as well as radial shearing rolling. Importantly, it is possible to supplement existing knowledge about the change in geometry of deformation center, and also to predict geometric parameters of the working rolls of the projected multi-roll mills for given rolled products sizes.
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螺旋轧机轧辊直径的测定
确定工作辊的最大直径的问题是典型的螺杆轧机有两个以上的工作辊。对于三辊轧机来说,精确确定工作辊直径尤为重要,三辊轧机广泛应用于轧制和校准等行业,以及在大进给和轧制角度下运行的径向剪切轧机。通常,工作辊的直径是通过建设性的方式或使用三维建模来确定的。这些方法相当复杂,需要特殊技能,并且不允许调查主要调谐轧机因素(如进给和轧制角度)的影响。有一种计算方法来确定三辊轧机的辊筒直径,但它适用于在进料角高达10度和轧制角为4 - 7度的轧机。在径向剪切轧制条件下,不使用这种方法,因为它没有考虑到变形过程、可制造性和产品质量所依赖的进料角和轧制角的影响。本文考虑了一种更一般的方法来确定三台或多台轧机的工作辊直径,同时考虑到它们在给料角和轧制角上的旋转。给出了轧辊直径、轧辊数、变形中心最小直径、给料角和轧制角之间的关系,从而可以对三辊轧机和四辊轧机的结构性能进行评价。本文的研究结果为进一步研究三辊螺杆轧机的技术和设备提供了可能,这些技术和设备用于生产实心和空心产品,采用全新的变形模式来轧制空心产品的压缩过程以及径向剪切轧制。重要的是,它可以补充关于变形中心几何变化的现有知识,也可以预测给定轧制产品尺寸的投影多辊轧机工作辊的几何参数。
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来源期刊
Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya
Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya Materials Science-Materials Science (miscellaneous)
CiteScore
0.90
自引率
0.00%
发文量
81
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