Physical Metallurgy Principles
5th Edition
Will be published approx. on 26. March 2024
Book
Paperback/Softback
800 pages
979-8-214-00166-1 (ISBN)
Description
Abbaschian/Abbaschian's PHYSICAL METALLURGY PRINCIPLES, 5th Edition, is specifically designed for students taking introductory courses in physical metallurgy within engineering at the junior or senior level. The approach is student-friendly, mostly theoretical, and covers all aspects of physical metallurgy and how metals and alloys behave. The content aligns with current learning trends -- emphasizing a more fundamental approach to engineering education. Its easy-to-read format effectively conveys the essential information, complemented by strategically placed figures throughout the chapters to improve understanding.
More details
Edition
5th edition
Language
English
Place of publication
United States
Publishing group
Cengage Learning, Inc
Target group
College/higher education
Product notice
Paperback (trade)
Unsewn / adhesive bound
Dimensions
Height: 230 mm
Width: 188 mm
Thickness: 28 mm
Weight
1157 gr
ISBN-13
979-8-214-00166-1 (9798214001661)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Persons
Reza Abbaschian received his Ph.D. in Materials Science and Engineering from the University of California, Berkeley in 1971. Prior to joining UC Riverside in 2005 as Dean of Engineering and Distinguished Professor of Mechanical Engineering, he was Chairman of the Department of Materials Science and Engineering at the University of Florida. He has also held the positions of Chairman and Professor at the Pahlavi University in Shiraz, Iran, Visiting Associate Professor at the University of Illinois and Visiting Scientist at Massachusetts Institute of Technology. Dr. Abbaschian has more than 230 scientific publications, four patents and eight books. He is a Fellow and the President of ASM International, the largest materials society in the world.
Content
1. The Structure of Metals.
2. Characterization Techniques.
3. Crystal Binding.
4. Introduction to Dislocations.
5. Dislocations and Plastic Deformation.
6. Elements of Grain Boundaries.
7. Vacancies and Thermodynamics.
8. Annealing.
9. Solid Solutions.
10. Phases.
11. Binary Phase Diagrams.
12. Diffusion in Substitutional Solid Solutions.
13. Interstitial Diffusion.
14. Solidification of Metals.
15. Nucleation and Growth Kinetics.
16. Precipitation Hardening.
17. Deformation Twinning and Martensite Reactions.
18. The Iron-Carbon Alloy System.
19. The Hardening of Steel.
20. Selected Nonferrous Alloy Systems.
21. Failure of Metals.
2. Characterization Techniques.
3. Crystal Binding.
4. Introduction to Dislocations.
5. Dislocations and Plastic Deformation.
6. Elements of Grain Boundaries.
7. Vacancies and Thermodynamics.
8. Annealing.
9. Solid Solutions.
10. Phases.
11. Binary Phase Diagrams.
12. Diffusion in Substitutional Solid Solutions.
13. Interstitial Diffusion.
14. Solidification of Metals.
15. Nucleation and Growth Kinetics.
16. Precipitation Hardening.
17. Deformation Twinning and Martensite Reactions.
18. The Iron-Carbon Alloy System.
19. The Hardening of Steel.
20. Selected Nonferrous Alloy Systems.
21. Failure of Metals.