System kinetics characteristics of multi-parameter coupling of rolling mill based on mixed lubrication process of rolling interface Online publication date: Fri, 15-Oct-2021
by Qiaoyi Wang; Pengcheng Yu; Han Wang; Xin Jiang; Huijun Zhao
International Journal of Surface Science and Engineering (IJSURFSE), Vol. 15, No. 3, 2021
Abstract: Based on the theories of rolling, hydromechanics and vibration, a multi-parameter coupling kinetic model was established, in which the interface friction, geometric constraint and stress distribution were modelled for dynamic roll gap. A quantitative analysis was performed on the key parameters affecting the amplitude and critical speed of vertical vibration of the rolling mill. The variation of friction stress and compressive stress in the work zone with time was analysed systematically when the rolling mill was in the mixed lubrication state with a constant reduction rate and surface roughness. The results reveal that the critical vibration speed is directly proportional to the thickness of the workpiece in the outlet zone, the surface roughness of the roll and workpiece, and the roll radius, but inversely to the lubricant viscosity and the thickness of the workpiece in the inlet zone. The amplitude is proportional to the rolling speed, and the compressive and frictional stresses are inversely proportional to the post-tensile stress.
Online publication date: Fri, 15-Oct-2021
If you are not a subscriber and you just want to read the full contents of this article, buy online access here.Complimentary Subscribers, Editors or Members of the Editorial Board of the International Journal of Surface Science and Engineering (IJSURFSE):
Login with your Inderscience username and password:
Want to subscribe?
A subscription gives you complete access to all articles in the current issue, as well as to all articles in the previous three years (where applicable). See our Orders page to subscribe.
If you still need assistance, please email email@example.com