本书介绍了热轧带钢板形控制的理论和实践包括以下内容：板形控制的内涵、板形控制的基本原理理论、形状控制手段、形状控制系统、形状控制热点问题等。
本书可供科研人员、设计师和生产技术人员使用从事冶金带材和板材的生产，也可作为参考书面向高校相关专业师生。

Main Abbreviation Definition
Main Symbol Definition
1 The Connotation of Shape Control
1.1 The Basic Concept of Strip Shape
1.1.1 Cross-section Profile
1.1.2 Flatness
1.1.3 Warping
1.1.4 Camber
1.2 Formation Mechanism of Strip Shape
1.2.1 Formation Mechanism of Shape in Rolling Process
1.2.2 Formation Mechanism of Shape in Cooling Process
1.3 Evaluation Index of Shape Control Performance
1.3.1 Adjustable Area of Loaded Roll Gap
1.3.2 Transverse Stiffness of Loaded Roll Gap
1.3.3 Adjustment Efficiency of Shape Control Means
1.3.4 Contact Pressure Distribution between Rolls
1.4 Characteristics of Shape Control in Hot Strip Rolling
1.4.1 Serious Uneven Wear of Roll
1.4.2 Serious Uneven Thermal Expansion of Roll
1.4.3 Coupling Effect on Crown Control and Flatness Control
1.4.4 Coupling Effect on Phase Change and Deformation
References
2 Basic Theory of Shape Control
2.1 A Rapid Calculation Method for the Deformation of Roll System
2.1.1 Discretization of Rolls and Loads
2.1.2 Calculation of Roll Bending Deformation
2.1.3 Calculation of Roll Flattening
2.1.4 Calculation of Roll Integrated Contour
2.1.5 Deformation Coordination between Rolls
2.1.6 Iterative Process Improvement
2.2 Theory of Plastic Deformation of Workpiece
2.2.1 The Main Method of Plastic Deformation of Workpiece
2.2.2 A Real-time Quasi-3D Metal Flow Model for Hot Rolling
2.3 Theory of Strip Temperature Field
2.3.1 Transient Temperature Field Model
2.3.2 Definite Conditions for Solving the Temperature Filed Model
2.4 Theory of Roll Temperature and Thermal Deformation
2.4.1 Roll Transient Temperature Field Model
2.4.2 Roll Thermal Deformation Model
2.4.3 Thermal Deformation Characteristics of the Roll
2.5 Theory of Roll Wear
2.5.1 Analysis of Roll Wear Mechanism
2.5.2 Analysis of Influence Factors of Roll Wear
2.5.3 Roll Wear Prediction Model
References
3 Shape Control Means
3.1 Roll Bending Technology
3.1.1 Working Principle of Roll Bending
3.1.2 Shape Control Performance of Roll Bending
3.2 Roll Shifting Technology
3.2.1 Working Principle of Roll Shifting
3.2.2 Shape Control Performance of Roll Shifting
3.3 CVC Technology
3.3.1 Working Principle of CVC
3.3.2 Parameter Design Method of CVC
3.3.3 Shape Control Performance of CVC
3.4 PC Technology
3.4.1 Working Principle of PC
3.4.2 Shape Control Performance of PC
3.5 HVC Technology
3.5.1 Working Principle of HVC
3.5.2 Parameter Design Method of HVC
3.5.3 Shape Control Performance of HVC
3.6 VCR/VCR Plus Technology
3.6.1 Working Principle of VCR/VCR Plus
3.6.2 Parameter Design Method of VCR/VCR Plus
3.6.3 Shape Control Performance of VCR/VCR Plus
3.7 MVC Technology
3.7.1 Working Principle of MVC
3.7.2 Parameter Design Method of MVC
3.8 ATR Technology
3.8.1 Working Principle of ATR
3.8.2 Parameter Design Method of ATR
3.8.3 Shape Control Performance of ATR Technology
References
4 Shape Control System in Hot Strip Rolling
4.1 Overview of Hot Strip Rolling Automatic Control System
4.2 Overview of Hot Strip Rolling Shape Control System
4.2.1 Development of Shape Control System
4.2.2 Crown Detector
4.2.3 Flatness Detector
4.3 Shape Setup Model in Hot Strip Rolling
4.3.1 Overall Framework of Shape Setup Model
4.3.2 Shape Setup Model Data Preparation
4.3.3 Roll Comprehensive Contour Calculation
4.3.4 Work Roll Shifting Strategy with Conventional Crown
4.3.5 Crown Assignment Strategy between Stands
4.3.6 Shape Transfer between Stands
4.3.7 Loaded Roll Gap and Bending Force Coefficient
4.3.8 Calculation of Work Roll Bending Force and Shifting
4.3.9 Shape Setup Mode