The Deformation and Processing of Structural Materials
Published on 11. July 2005
Book
Hardback
332 pages
978-0-8493-2578-6 (ISBN)
Description
This new study focuses on the latest research in the performance of a wide range of materials used in the construction of structures including concrete, composite materials, timber, iron and steel, aluminum and titanium alloys, superalloys and intermetallics. It considers each materials processing and its deformation behavior in structural applications. This book will help engineers by giving them a better understanding of the performance of the major structural materials (especially metals) under different conditions in order to select the right type of material for a job and for setting design specifications. It also shows how the microstructural composition of materials is affected by processing and what influence this has on its subsequent in situ performance. This book will be the first of its kind to give comprehensive coverage to the deformation and processing of all types of structural materials and will be a valuable resource for researchers in mechanical, civil and structural engineering.
More details
Language
English
Place of publication
Bosa Roca
United States
Publishing group
Taylor & Francis Inc
Target group
Professional and scholarly
Dimensions
Height: 235 mm
Width: 156 mm
Weight
658 gr
ISBN-13
978-0-8493-2578-6 (9780849325786)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Content
INTRODUCTION, Z. Xiao
ALUMINIUM AND ITS ALLOYS, U. Chakkingal
Introduction
Deformation Behaviour of Aluminium Alloys
Processing and Microstructure
Processing and Properties
Severe Plastic Deformation Techniques
Common Problems and Solutions
Conclusion
Sources of Further Information
References
HIGH TEMPERATURE DEFORMATION, ALLOYS AND PROCESSING OF MAGNESIUM ALLOYS, A. Arslan, M. Pekgueleryuez, and D. Eliezer
Introduction
General Deformation Behaviour of Magnesium
Creep Behaviour of Magnesium
Modes of Creep
Microstructure, Properties and Processing
Conclusion
References
THERMOMECHANICAL PROCESSING OF FERROUS ALLOYS, P. Manohar and M. Ferry
Introduction
Hot Deformation and Annealing Behaviour
Processing and Microstructure
Microstructure and Properties
Processing and Processability
Common Problems and Solutions
Case Study: Rod Rolling
Conclusion
Sources of Further Information
References
SUPERALLOYS, S. Tin
Introduction
Physical Metallurgy
Polycrystalline Superalloys
Directionally Solidified Superalloys
Creep Deformation
Properties
Conclusion
References
PLASTIC DEFORMATION OF ORDERED INTERMETALLIC ALLOYS, K. Xia
Introduction
Bonding, Crystal Structures and Defects
Plastic Deformation
Deformation Processing
Applications
Conclusion and Future Trends
Sources of Further Information
References
DISCONTINUOUSLY REINFORCED METAL MATRIX COMPOSITES, M. Ferry
Introduction
Deformation Behaviour
Annealing Processes Following Deformation
Processing and Processability of DRCs
Final Microstructure and Mechanical Properties
DRC Applications
Conclusion
Sources of Further Information
References
SEMI-SOLID METAL PROCESSING OF METALLIC ALLOYS, A. Das and Z.Y.Fan
Introduction
Rheology of Semisolid Alloys
Deformation Bahviour of SSM Slurries with High Solid Fractions
Microstructural Evolution During Slurry Preparation
Alloy Development for SSM Processing
Mechanical Properties
Technologies for Component Shaping
Future Trends
Sources of Further Information
References
SUPERPLASTICITY IN STRUCTURAL MATERIALS, N. Ridley
Introduction
Mechanical Aspects of Superplasticity
Characterisation of Superplastic Materials
Types of Superplastic Materials
Processing and Microstructure
Superplastic Forming (SPF); Quick Plastic Forming (QPF); Products and their Mechanical Properties; Diffusion Bonding (DB) and SPF/DB Technology
Problems Associated with SP and SPF
Case Study: The Role of DB/SPF in the Manufacture of Wide Chord Fan Blades
Conclusion and Future Trends
Sources of Further Information
References
ALUMINIUM AND ITS ALLOYS, U. Chakkingal
Introduction
Deformation Behaviour of Aluminium Alloys
Processing and Microstructure
Processing and Properties
Severe Plastic Deformation Techniques
Common Problems and Solutions
Conclusion
Sources of Further Information
References
HIGH TEMPERATURE DEFORMATION, ALLOYS AND PROCESSING OF MAGNESIUM ALLOYS, A. Arslan, M. Pekgueleryuez, and D. Eliezer
Introduction
General Deformation Behaviour of Magnesium
Creep Behaviour of Magnesium
Modes of Creep
Microstructure, Properties and Processing
Conclusion
References
THERMOMECHANICAL PROCESSING OF FERROUS ALLOYS, P. Manohar and M. Ferry
Introduction
Hot Deformation and Annealing Behaviour
Processing and Microstructure
Microstructure and Properties
Processing and Processability
Common Problems and Solutions
Case Study: Rod Rolling
Conclusion
Sources of Further Information
References
SUPERALLOYS, S. Tin
Introduction
Physical Metallurgy
Polycrystalline Superalloys
Directionally Solidified Superalloys
Creep Deformation
Properties
Conclusion
References
PLASTIC DEFORMATION OF ORDERED INTERMETALLIC ALLOYS, K. Xia
Introduction
Bonding, Crystal Structures and Defects
Plastic Deformation
Deformation Processing
Applications
Conclusion and Future Trends
Sources of Further Information
References
DISCONTINUOUSLY REINFORCED METAL MATRIX COMPOSITES, M. Ferry
Introduction
Deformation Behaviour
Annealing Processes Following Deformation
Processing and Processability of DRCs
Final Microstructure and Mechanical Properties
DRC Applications
Conclusion
Sources of Further Information
References
SEMI-SOLID METAL PROCESSING OF METALLIC ALLOYS, A. Das and Z.Y.Fan
Introduction
Rheology of Semisolid Alloys
Deformation Bahviour of SSM Slurries with High Solid Fractions
Microstructural Evolution During Slurry Preparation
Alloy Development for SSM Processing
Mechanical Properties
Technologies for Component Shaping
Future Trends
Sources of Further Information
References
SUPERPLASTICITY IN STRUCTURAL MATERIALS, N. Ridley
Introduction
Mechanical Aspects of Superplasticity
Characterisation of Superplastic Materials
Types of Superplastic Materials
Processing and Microstructure
Superplastic Forming (SPF); Quick Plastic Forming (QPF); Products and their Mechanical Properties; Diffusion Bonding (DB) and SPF/DB Technology
Problems Associated with SP and SPF
Case Study: The Role of DB/SPF in the Manufacture of Wide Chord Fan Blades
Conclusion and Future Trends
Sources of Further Information
References