物理冶金原理与热轧板带钢产品组织性能控制应用

本书特色

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陈雨来、余伟、蔡庆伍*的《物理冶金原理与热轧板带钢产品组织性能控制应用(英文版)》讲述了： The book has six
chapters. The first chapter to the fourth chapter introduces the physi- cal
metallurgy principle of steel strengthening and toughening mechanism,
austenitedeformation and recrystallization, transformation of undercooled
austenite, micro allo-ying elements dissolved and precipitated. The fifth
chapter is the development and ap-plication of physical metallurgy method in the
production of medium and heavyplate. The sixth chapter is the development and
application of physical metallurgicalmethod in hot strip production. This book
can be used as a reference book for scientific and technical personnel inrelated
fields, and as a teaching material for college and graduate students majored
inthe material forming and control.

]

目录

Chapter 1 Strengthening and Toughening Principle of Steel1.1 Strengthening mechanisms of steel1.1.1 Solid solution strengthening1.1.2 Dislocation strengthening1.1.3 Precipitation strengthening1.1.4 Fine grain strengthening1.1.5 Phase transformation strengtheningChapter 1 Strengthening and Toughening Principle of Steel1.1 Strengthening mechanisms of steel1.1.1 Solid solution strengthening1.1.2 Dislocation strengthening1.1.3 Precipitation strengthening1.1.4 Fine grain strengthening1.1.5 Phase transformation strengthening1.2 Plasticity enhancement and toughening mechanism of steel1.2.1 Plasticity enhancement mechanism of steel1.2.2 Toughening mechanism of steel1.2.3 Toughening methods of steelReferences
Chapter 2 Evolution and Control of AusteniteStructure of Steel2.1 Recrystallization of austenite deformed at high temperature2.1.1 Dynamic recovery and recrystallization2.1.2 Control of static recrystallization2.1.3 Recrystallization zone diagram2.2 Austenite deformation energy and control2.3 Formation and control of austenite at low temperature2.3.1 Control of austenite structure at low temperature2.3.2 Stability of retained austeniteReferences
Chapter 3 Dynamic Phase Transformation and Control ofHot Deformed Austenite3.1 Phase transformation of over-cooling austenite and test method 3.1.1 Thermal analysis method3.1.2 Differential scanning calorimetry method3.1.3 Acoustic emission method3.1.4 Resistivity method3.1.5 Thermodilatometry3.2 Transformation of deformed austenite to ferrite3.2.1 Influence of deformation on transformation ofaustenite to ferrite (y-a)3.2.2 Phase transformation driving force and nucleation ofdeformed austenite3.2.3 Influence of thermal deformation on y-atransformation temperature3.2.4 Deformation and recrystallization of ferrite3.3 Transformation of deformed austenite to pearlite3.3.1 Pearlite nucleation and pearlite morphology parameters3.3.2 Nucleation and growth of pearlite3.3.3 Pearlite transformation temperature in deformation condition3.4 Transformation of deformed austenite to bainite3.4.1 Structure and nucleation of bainite3.4.2 Driving force of bainite transformation3.4.3 Continuous cooling transformation of typical low carbon bainite steel3.4.4 Bainite transformation and MA structure control3.5 Transformation of deformed austenite to martensite3.5.1 Influence factors of martensite transformation temperature3.5.2 Martensite structure morphology3.5.3 Relationship between morphology and mechanicalproperty of martensiteReferences
Chapter 4 Control of Dissolution and Precipitation ofMicroalloying Elements4.1 Features of microalloying element compounds4.2 Dissolution of microalloying elements at high temperature4.3 Precipitation and control of microalloying elements4.3.1 Precipitation kinetics of microa]]oying e]ements4.3.2 Precipitation in rolling process4.3.3 Precipitation in cooling process4.3.4 Precipitation in aging process4.4 Growth of precipitates4.5 Microalloying elements and their roles in steel4.5.1 Inhibition of growth of austenite grains during heating4.5.2 Inhibition of recrystallization of deformed austenite4.5.3 Strengthening and toughening effectReferences
Chapter 5 Structure and Property Control in the Production ofSteel Plates5.1 Process flow and characteristics of production of steel plates5.1.1 Process flow of production of ordinary steel plates5.1.2 Process flow of production of special steel plates5.1.3 Functions of ordinary processes of the production of steel plates5.1.4 Key processes of structure and property control5.2 Structure and property control for typical steel plate varieties5.2.1 High-strength pipeline steel p]ate5.2.2 Stee] plates for bridges5.2.3 High-rise bui]ding steel5.2.4 Steel used in ships and marine works5.2.5 Steel plates used for boiler vessels5.3 New processes for control of structure andproperty of steel plates5.3.1 Intermediate cooling (IC) and high-efficiencycontrolled rolling5.3.2 Gradient temperature rolling (GTR)5.3.3 Direct quenching (DQ-T)5.3.4 Intermittent direct quenching (IDQ) and direct quenching& partitioning (DQP)5.3.5 Heat-treatment online process (HOP)5.3.6 Relaxation-precipitation-control (RPC)5.3.7 Normalizing controlled cooling (NCC)References
Chapter 6 Control of Structure and Property ofHot Rolled Strip6.1 Process flow and characteristics of production ofhot rolled strips6.1.1 Conventional continuous strip rolling process flow6.1.2 Thin slab continuous casting & rolling process flow6.1.3 Thin strip continuous rolling process flow6.2 Structure control during the production of hot rolled strip6.2.1 Structure control during heating of cast slab6.2.2 Controlled rolling in the production of hot rolled strip6.3 Controlled cooling and phase transformationcontrol of hot rolled strip6.3.1 Controlled cooling process after rolling of strips6.3.2 Influences of cooling process on structure and property6.4 Typical application of structure and propertycontrol of hot rolled strip6.4.1 Structure and property control of hot continuous cast TRIP steel6.4.2 Control of structure and property of hot-rolled pipeline steel strip
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封面

书名:物理冶金原理与热轧板带钢产品组织性能控制应用

作者:陈雨来，余伟，蔡庆伍著

页数:309页

定价:¥75.0

出版社:冶金工业出版社

出版日期:2017-04-01

ISBN:9787502474904

PDF电子书大小:122MB 高清扫描完整版