Flatness Control of the Crossbowed Hot Plate Using Cold Roller Leveling

Seo, Jae Hyung; Han, Sang Wook; Tyne, C. J. Van; Moon, Young Hoon

doi:10.1115/1.4043021

Cited by 3 publications

(1 citation statement)

References 22 publications

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“…Wang et al (2018aWang et al ( , 2018bWang et al ( , 2018c) developed a three-dimensional finite element model for the Universal Crown Control Mill (UCM mill) and strip containing different basic crown patterns, which were applied to two questions, namely, prediction of flatness defect position and analysis of actuator control efficiency. Seo et al (2019) used the finite element method to simulate numerically the effect of work roll configurations on leveling efficiency. To verify the accuracy of numerical simulations, actual leveling experiments were performed using crossbowed plates.…”

Section: Introductionmentioning

confidence: 99%

Development of a virtual shapemeter based on a shape control model for continuous annealing

Yang

et al. 2020

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Purpose Continuous annealing (CA) units usually lack a physical shapemeter; consequently, real-time display and closed-loop control of the strip shape are impossible to achieve. Design/methodology/approach A shape model for the CA process is established in this study. Specifically, a virtual shapemeter and closed-loop control system based on the advanced parameter acquisition system and information transmission of CA units are developed in C++ programming language. This system realises real-time dynamic shape display, closed-loop control and shape prediction by collecting raw data of steel coils and parameters during CA. Findings Field test results show that the shape predicted by the virtual shapemeter coincides with the measured shape by over 90 per cent, which fully meets the precision requirement of industrial applications. Originality/value Moreover, shape quality is effectively improved without increasing hardware investments.

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Section: Introductionmentioning

confidence: 99%

Development of a virtual shapemeter based on a shape control model for continuous annealing

Yang

et al. 2020

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Model-Based Dynamic Calibration of a Multi-Actuator Gap Leveler for Heavy Plates

Brauneis

Steinboeck

Jochum

et al. 2020

Journal of Manufacturing Science and Engineering

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A novel method to calibrate the work rolls of a precision leveler for heavy plates is proposed. During the leveling process, a sequence of bending steps is imposed on the plate by the work rolls of the leveler to eliminate flatness defects. The respective positions of the rolls define the intensity of the consecutive bends. Any deviation from the desired roll position may result in a suboptimal leveling process. Thus, an exact control of the position of the work rolls is required. Due to backlash, wear, tolerances, and elastic deformation, the roll positions cannot be determined from nominal parameters and dimensions. Therefore, the machine has to be calibrated and properly adjusted to find suitable reference positions for control. During calibration, the structure is prestressed with a suitable test force and the signals of force and displacement sensors are recorded. As a result, reference points for future control inputs are obtained. A major drawback of a frequently used calibration method for levelers is that the work rolls of multi-actuator gap levelers cannot be properly calibrated. In practice, the work rolls are manually adjusted by the maintenance personnel of the machine. In this case, backlash may cause the loaded work rolls to deviate from their intended positions. Thus, a new method to calibrate the position of the individually actuated work rolls is developed and tested.

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A Product-Oriented Synchronization and Effective Information Extraction of Continuous Streaming Data for Relationship Mining in a Hot Rolling Process

Miao

Wang

Chang³

et al. 2022

Journal of Manufacturing Science and Engineering

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Massive continuous streaming data are generated over time during production in a multistage manufacturing process. This paper aims to develop a product-oriented transformation of continuous streaming data and further model the relationships among variables for knowledge discovery. Take the steel rolling process as an example; this paper presents a three-step data analytics procedure for product-oriented transformation of continuous streaming data and further conducting relationship mining between the roll gap adjustment operations and product shapes based on the product-oriented data. The developed procedure first converts the continuous streaming data generated over time in a production process to product-oriented data set, then extracts the information related to the causes and effects of roll gap adjustments, and finally fits the model describing the relationship among the roll gap adjustments, the change of rolling torques, and the change of product dimensions. This data analytics procedure facilitates the decision-making in the steel rolling process and illustrates an effective application of massive in-situ sensing data towards intelligent decision-making in data-rich manufacturing processes.

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Flatness Control of the Crossbowed Hot Plate Using Cold Roller Leveling

Cited by 3 publications

References 22 publications

Development of a virtual shapemeter based on a shape control model for continuous annealing

Development of a virtual shapemeter based on a shape control model for continuous annealing

Model-Based Dynamic Calibration of a Multi-Actuator Gap Leveler for Heavy Plates

A Product-Oriented Synchronization and Effective Information Extraction of Continuous Streaming Data for Relationship Mining in a Hot Rolling Process

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