Identification and Regulation of Cold Rolling Interface State Based on a Novel Modified Forward Slip Model

Identification and Regulation of Cold Rolling Interface State Based on a Novel Modified Forward Slip Model

With the development of rolled steel strips towards higher strength and thinner thickness, negative forward slip has been frequently observed during the process of cold rolling, and this phenomenon closely related to interface is believed to seriously influence rolling stability. However, the existi...

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Bibliographic Details
Main Authors: Yanli Xin, Zhiying Gao, Yong Zang, Xiaoyong Wang
Format: Article
Language:English
Published: MDPI AG 2024-11-01
Series:Lubricants
Subjects:
cold rolling
negative forward slip
rolling interface
stability
tension regulation
Online Access:https://www.mdpi.com/2075-4442/12/12/404
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Summary:With the development of rolled steel strips towards higher strength and thinner thickness, negative forward slip has been frequently observed during the process of cold rolling, and this phenomenon closely related to interface is believed to seriously influence rolling stability. However, the existing classic forward slip models are limited to calculating positive forward slip values and cannot reflect negative forward slip effects. Therefore, in this paper, based on BLAND-FORD forward slip theory, a novel modified forward slip model capable of predicting negative forward slip is established and verified, in which the corresponding flattened curve is characterized and a compensation coefficient related to actual tension and coil number is supplemented. Then, a dimensionless sensitivity factor is defined to compare and analyze the influences of various parameters on forward slip through the modified model, in order to pick a more effective and reasonable regulation approach. Finally, an idea of keeping stable forward slip through dynamic tension regulation is suggested and applied in the actual rolling process, and it is drawn that this strategy can be used to avoid fluctuations of process parameters and suppress mill chatter. As a result, the presented modified forward slip model can identify both positive and negative forward slips and is helpful in regulating the interface state and improving the stability of the rolling process.
ISSN:2075-4442

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