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A Prediction Method Applicable to the Variation of Rolling Pressure with Rolling Speed ​​in Cold Rolling Process

A technology of rolling speed and rolling pressure, which is applied in the field of forecasting of rolling speed changes, to ensure surface quality and shape accuracy, avoid fluctuations out of tolerance, and improve brand competitiveness

Active Publication Date: 2018-05-01
唐山市榕泽钢材加工有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, most of the above studies are based on single-factor analysis, and fail to integrate the cross-effects between rolling process parameters and lubrication process parameters, and establish relevant mathematical models to carry out multi-dimensional research.

Method used

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  • A Prediction Method Applicable to the Variation of Rolling Pressure with Rolling Speed ​​in Cold Rolling Process
  • A Prediction Method Applicable to the Variation of Rolling Pressure with Rolling Speed ​​in Cold Rolling Process
  • A Prediction Method Applicable to the Variation of Rolling Pressure with Rolling Speed ​​in Cold Rolling Process

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Effect test

Embodiment 1

[0027] A method suitable for forecasting the change of rolling pressure with rolling speed in the cold rolling process, the calculation steps are as follows figure 1 Shown:

[0028] First, in step a, the main equipment and process parameters of the cold tandem mill are collected, such as figure 2As shown, it mainly includes the following steps:

[0029] In step a1, the process parameters of the rolls are collected, the work roll radius R=203.43mm, the surface roughness Ra r =0.53μm, the Young's modulus E=206GPa of the work roll, the Poisson's ratio v=0.3 of the work roll;

[0030] Subsequently, in step a2, the rolling process parameters are collected, the average deformation resistance K of the strip m =502MPa, strip width B=812mm, incoming material thickness h 0 =2.01mm, reduction rate ε i ={44.3,44.2,38.1,32.5,19.3}%, rolling speed data V j ={149.6,292.3,328.3,449.2,585.5,601.2,796.7,833.5,939.2,1087.1,1143.5}m / min, tension value σ i = {60.2, 129.8, 146.4, 156.4, 164...

Embodiment 2

[0046] First, in step a, the main equipment and process parameters of the cold tandem rolling mill are collected, which mainly includes the following steps:

[0047] In step a1, the roll process parameters are collected, the work roll radius R=204.29mm, the surface roughness Ra r =0.52μm, the Young's modulus E=206GPa of the work roll, the Poisson's ratio v=0.3 of the work roll;

[0048] Subsequently, in step a2, the main rolling process parameters are collected, the average deformation resistance K of the strip m =502MPa, strip width B=1020mm, incoming material thickness h 0 =2.23mm, reduction rate ε i ={44.5,44.4,38.3,32.8,20.3}%, rolling speed data V j ={146.2,286.7,322.3,444.3,583.2,600.2,792.8,832.2,932.6,1086.2,1142.7}m / min, tension value σ i = {57.8, 129.0, 145.5, 155.5, 163.8, 62.8} MPa;

[0049] Subsequently, in step a3, collect process lubrication system parameters, emulsion flow rate w i ={1023,1362,1140,1067,1266}L / min, emulsion concentration C=4.2%, initial e...

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Abstract

The invention discloses a method for predicting the changes of a rolling pressure with the changes of a rolling speed in a cold rolling process. The method comprises the following computer executed steps: (1) collecting main equipment and technological parameters of a cold continuous rolling unit; (2) calculating an elastic flattening radius of a working roller; (3) calculating the temperature of emulsion in the rolling process for producing products of the typical specification under the current working condition; (4) calculating power viscosity of a lubricant; (5) calculating dynamic oil film thickness in rolling of a smooth roller; (6) calculating the friction coefficient in the rolling process under the current working condition; and (7) calculating the rolling pressure under the current working condition. The method disclosed by the invention can realize on-line prediction of changes of the rolling pressure in a speed increasing and reducing process and can be used for monitoring the change condition of the rolling pressure in the speed increasing and reducing process in real time so as to provide a control strategy in time, so the rolling pressure fluctuation degree is greatly alleviated, on-site workers can be provided with an on-line rapid early warning mechanism, and the surface quality and strip shape accuracy of strip steel are guaranteed.

Description

technical field [0001] The invention belongs to the technical field of cold rolling, in particular to a method for forecasting changes in rolling speed. Background technique [0002] In recent years, with the development of the modern sheet metal processing industry towards high automation and the increasingly wide use of cold-rolled strips, users have put forward higher and higher requirements for the shape and thickness accuracy of cold-rolled strips. At the same time, as an important rolling process parameter in the cold tandem rolling process, the rolling pressure is closely related to the size and shape of the roll gap, and its fluctuation directly affects the shape and thickness accuracy of the finished strip. One of the core process parameters that must be precisely controlled. In the continuous cold rolling production process, the fluctuation of the rolling speed is the main reason for the fluctuation of the rolling pressure when the process lubrication system and t...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B21B37/58B21B1/28
CPCB21B1/28B21B37/58B21B2261/04B21B2261/06B21B2265/02B21B2265/04B21B2265/08B21B2265/12B21B2267/06B21B2267/10B21B2275/02B21B2275/04B21B2275/06
Inventor 白振华崔亚亚李柏阳赵伟泉刘硕杨李小峰
Owner 唐山市榕泽钢材加工有限公司
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