Engineering Materials 2
An Introduction to Microstructures and Processing
5th Edition
Will be published approx. on 1. January 2030
Book
Paperback/Softback
608 pages
978-0-08-102069-2 (ISBN)
Description
Engineering Materials 2, Fifth Edition: An Introduction to Microstructures and Processing is a comprehensive introduction to microstructures and the processing of materials. It is comprised of four sections covering metals, ceramics, polymers and composites. The materials are presented in an easy-to-read style, but also provide details on how processing, microstructures and physicochemical characters are interrelated. The book emphasizes the relationship between structure, processing and properties of both conventional and innovative materials. It provides detailed discussions of the different aspects of transformations, including interface kinetics, nucleation and growth and constitutional undercooling.
More details
Series
Edition
5th edition
Language
English
Place of publication
Oxford
United Kingdom
Publishing group
Elsevier Science & Technology
Target group
College/higher education
Senior undergraduate and first year graduate courses in departments of mechanical engineering; materials sciences; manufacturing; engineering design; materials design; product design; aeronautical engineering; engineering sciences.
Product notice
Paperback (trade)
Unsewn / adhesive bound
Dimensions
Height: 235 mm
Width: 191 mm
ISBN-13
978-0-08-102069-2 (9780081020692)
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
Other editions
Previous edition
David R.H. Jones | Michael F. Ashby
Engineering Materials 2
An Introduction to Microstructures and Processing
Book
12/2012
4th Edition
Butterworth-Heinemann
€71.00
Shipment within 15-20 days
Persons
Dr. Jones is co-author of Engineering Materials 1 and 2 and lead author for the 3rd and 4th editions. He was the founder editor of Elsevier's journal Engineering Failure Analysis, and founder chair of Elsevier's International Conference on Engineering Failure Analysis series. His research interests are in materials engineering, and along with serving as President of Christ's College at the University of Cambridge he now works internationally advising major companies and legal firms on failures of large steel structures. Mike Ashby is one of the world's foremost authorities on materials selection. He is sole or lead author of several of Elsevier's top selling engineering textbooks, including Materials and Design: The Art and Science of Material Selection in Product Design, Materials Selection in Mechanical Design, Materials and the Environment, Materials and Sustainable Development, and Materials: Engineering, Science, Processing and Design. He is also co-author of the books Engineering Materials 1&2, and Nanomaterials, Nanotechnologies and Design.
Content
Part A: Metals
1. Metals
2. Metal Structures
3. Phase Diagrams 1
4. Phase Diagrams 2
5. Case Studies in Phase Diagrams
6. Driving Force for Structural Change
7. Kinetics 1 - Diffusive Transformations
8. Kinetics 2 - Nucleation
9. Kinetics 3 - Displacive Transformations
10. Case Studies in Phase Transformations
11. Light Alloys
12. Steels 1 - Carbon Steels
13. Steels 2 - Alloy Steels
14. Case Studies in Steels
15. Processing Metals 1
16. Processing Metals 2
Part B: Ceramics
17. Ceramics
18. Ceramic Structures
19. Mechanical Properties of Ceramics
20. Processing Ceramics
21. Cement and Concrete
22. Case Studies in Ceramics
Part C: Polymers
23. Polymers
24. Polymer Structures
25. Mechanical Properties of Polymers
26. Processing Polymers
27. Case Studies in Polymers
Part D: Composites
28. Properties of Composites and Foams
29. Wood Structure and Properties
30. Case Studies in Composites
1. Metals
2. Metal Structures
3. Phase Diagrams 1
4. Phase Diagrams 2
5. Case Studies in Phase Diagrams
6. Driving Force for Structural Change
7. Kinetics 1 - Diffusive Transformations
8. Kinetics 2 - Nucleation
9. Kinetics 3 - Displacive Transformations
10. Case Studies in Phase Transformations
11. Light Alloys
12. Steels 1 - Carbon Steels
13. Steels 2 - Alloy Steels
14. Case Studies in Steels
15. Processing Metals 1
16. Processing Metals 2
Part B: Ceramics
17. Ceramics
18. Ceramic Structures
19. Mechanical Properties of Ceramics
20. Processing Ceramics
21. Cement and Concrete
22. Case Studies in Ceramics
Part C: Polymers
23. Polymers
24. Polymer Structures
25. Mechanical Properties of Polymers
26. Processing Polymers
27. Case Studies in Polymers
Part D: Composites
28. Properties of Composites and Foams
29. Wood Structure and Properties
30. Case Studies in Composites