书名:金属成形过程中的组织演化(影印版)
作者:[英]林建国责编:许雅莹
I S B N:978-7-5603-6392-9定价:260元
出版日期:2017-10-01开本:16
所属丛书:页数:394
图书分类:A.材料科学与工程类中图分类: TG金属学与金属工艺

【内容简介】

本书总结了大量关于金属塑性成形过程中微观组织演变的建模和控制的最新研究结果,深入系统地探讨了钢变形过程中的微观组织演化规律,综述了钢相变的建模模拟、统一本构方程和微合金钢的加工硬化,分析了包括铝材成形中的时效行为等在内的其他材料成形加工中的微观组织演化现象。

金属成形过程中的组织控制是人们长期致力研究的课题。本书适合冶金、材料加工等行业的工程技术人员使用,也可供高等院校相关专业的师生参考。

  

【目  录】

Part1 Generalprinciples

PartGeneral principles

Understanding and controlling microstructural

evolution in metal formingan overview

T.ISHIKAWANagoya UniversityJapan

1.1 Introduction

1.2 How microstructure evolves in metal forming

1.3 Models for predicting the microstructural evolution of carbon steels

1.4 Strengthening mechanisms and relation between microstructure and mechanical properties

1.5 Emerging techniques to control microstructure evolution in metal forming

1.6 Advanced highstrength steelsAHSS

1.7 Conclusion and future trends

1.8 References

2 Techniques for modelling microstructure in metal forming processes

Y.CHASrELRENAULTFrance and R.LoGE and M.BERRNACKIMINES ParisTechFrance

2.1 Introductionimportance of microstructure prediction in metal forming

2.2 General features of models based on state variables

2.3 Coupling between homogeneous microstructure description and constitutive laws

2.4 Mean field approachan example of discontinuous dynamic recrystallization

2.5 Recrystallization modelling at the microscopic scaleoverview and future trends

2.6 Future trends

2.7 References

3 Modelling techniques for optimizing metal forming processes

J.KUSIAKD.SZELIGA and L.SZTANGRETAGHUniversity of Science and TechnologyPoland

3.1 Introduction

3.2 Optimization strategies

3.3 Natureinspired optimization techniquesgenetic algorithmsevolutionary algorithmsparticle swarm optimization and simulated annealing

3.4 Application of metamodelling and optimization strategies in metal forming—case studies

3.5 Conclusions and future trends

3.6 Acknowledgements

3.7 References

4 Recrystallisation and grain growth in hot working of steels

B.LOPEZ and J.M.RODRIGUEZIBABECEIT and TecnunUniversity of Navarra),Spain

4.1 Introduction

4.2 Grain refinement due to recrystallisation

4.3 Grain growth after recrystallisation

4.4 Recrystallisation—precipitation interactions

4.5 Modelling methods

4.6 Case studies in metal forming

4.7 Sources of further information and advice

4.8 References

5 Severe plastic deformation for grain refinement and enhancement of properties

A.ROSOCHOWSKIUniversity of StrathclydeUK and L.OLEJNIKWarsaw University of TechnologyPoland

5.1 Introduction

5.2 Principles of severe thermo—mechanical treatment

5.3 Severe plastic deformationSPDprocesses

5.4 Properties ofultrafinegrainedUFGmetals produced by SPD

5.5 Applications of UFG metals

5.6 Sources of further information and advice

5.7 References

Part  Microstructure evolution in the processing of steel

6 Modelling phase transformations in steel

M.PIETRZYKAGHUniversity of Science and TechnologyPoland and R.KuZIAK.Institute for Fcrrous

Metallurgypoland

6.1 Introduction

6.2 Phase transformation in steels

6.3 Experimental techniques

6.4 Modelling methods

6.5 Application in rolling and annealing of dual—phase stecls

6.6 Discussion and future trends

6.7 Sources of further information and advice

6.8 References

7 Determining unified constitutive equations for modelling hot forming of steel

J.LiNImperial College LondonUK.J.CAORTC Innovation LtdUK and D.BALiNT.Imperial College LondonUK

7.1 Introduction

7.2 The form of unified constitutive equations for hot metal forming

7.3 Methods for integrating constitutive equations

7.4 Objective functions for optimisation

7.5 Optimisation methods for determining the material constants in constitutive equations

7.6 Case studies

7.7 Conclusion

7.8 References

8 Modelling phase transformations in hot stamping and cold die quenching of steels

J.CAI and J.LiNImperial College LondonUK and J.WILSIUSArcelorMittalFrance

8.1 Introduction

8.2 Phase transformations on heatingexperimentation and modelling

8.3 Phase transformations on coolingexperimentation and modelling

8.4 Conclusion and future trends

8.5 References

9 Modelling microstructure evolution and work hardening in conventional and ultrafine—grained microalloyed steels

J.MAJTA and K.MUSZKAAGHUniversity of Science and TechnologyPoland

9.1 Introduction

9.2 Thermomechanical and severe plastic deformation processing of ultrafinegrained microalloyed MAsteels

9.3 The principles of deformation—induced grain refinement

9.4 Effects of microstructure evolution on mechanical properties of ultrafine—grained microalloyed steel

9.5 Applicationresults and discussion

9.6 Multiscale modelling ofthe flow stress of conventional and ultrafine—grained microalloyed steels

9.7 Conclusion and future trends

9.8 References

Part  Microstructure evolution in the processing of other metals

10 Aging behavior and microstructure evolution in the processing of aluminum alloys

D.SHAN and L.ZHENHarbin Institute of TechnologyChina

10.1 Introduction

10.2 Microstructure evolution during plastic processingthe effects of hot working on microstructure and properties

10.3 Microstructure evolution during plastic processingthe effects of cold working on microstructure and properties

10.4 Aging behavior and age hardening

10.5 Characterization and test methods

10.6 Case studies and applications

10.7 Conclusion and future trends

10.8 Acknowledgments

10.9 References

11 Microstructure control in creep—age forming of aluminium panels

L.ZHANCentral South UniversityChina and J.LIN and D.BALINTImperial College LondonUK

11.1 Introduction to the creepage formingCAFprocess and its importance

11.2 The importance of precipitation control in CAF

11.3 Testing methods for stressstrain ageing

11.4 Modelling of precipitation hardening

11.5 Applications and future trends

11.6 References

12 Microstructure control in processing nickeltitanium and other special alloys

C.SOMMITSCHR.RADIS and A.KRUMPHALSGraz Uriiversity of TechnologyAustria and M.STOCKINGER and D.HUBERBohler Schmiedetechnik GmbH & Co KGAustria

12.1 Introduction

12.2 Application of special alloys such as nickelbased alloystitanium alloys and titanium aluminides

12.3 Production processes

12.4 Microstrures and mechanical properties

12.5 Materials modelling and process simulation

12.6 Process and materials optimizationcase study

12.7 Future trends

12.8 Sources of further information and advice

12.9 References

Index


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