New Book on Metal Matrix Syntactic Foams
This book is a complete guide for Lightweight metal-type foams for materials, engineering, modeling and processing of novel syntactic material
This book is a collection,from researchers
who have made contributions to this field,
is intended to present the current state of science and technology related
to metal matrix syntactic foams
LANCASTER, PA, USA, May 6, 2015 /EINPresswire.com/ -- Metal Matrix Syntactic Foams:Processing, Microstructure, Properties and Applications, edited by Nikhil Gupta, New York University, Polytechnic School of Engineering and Pradeep K. Rohatgi, University of Wisconsin-Milwaukee, focuses on a new type of material, and investigates the elements, synthesis and practical applications of metal matrix syntactic foams, which share properties of foams and metal matrix composites. The text reviews how syntactic foams are synthesized from different types of hollow particles and metal matrices. Part one explains processing techniques such as solidification and powder metallurgy and discusses foams made from a variety of matrix metals. Part two compares different syntactic foams based on density and strain rate. Original experimental data and modeling information are provided that show how metal matrix syntactic foams can be used for lighter weight components in vehicles, as well as for sensors and biomaterials.— Nikhil Gupta
Metal Matrix Syntactic Foams: Processing, Microstructure, Properties and Applications is published by DEStech Publications, Inc., best known for advanced publications in engineering and science.
978-1-932078-83-1,©2015, 370 pages, 6x9, hardcover, Price: $172.50
TABLE OF CONTENTS
Preface
Acknowledgments
Editors
Contributors
Chapter 1. Introduction to Foams
NIKHIL GUPTA
1.1. Lightweight Materials
1.2. Foams
1.3. Syntactic Foams
1.4. Outline of the Book
1.5. Acknowledgments
1.6. References
Chapter 2. Hollow Particles
OLIVER M. STRBIK III, P.E.
2.1. Structure
2.2. Manufacturing Methods
2.3. References
Chapter 3. Synthesis of Metal Matrix Syntactic Foams
BENJAMIN F. SCHULTZ and PRADEEP K. ROHATGI
3.1. Solidification Processing of Metal Matrix Syntactic Foams
3.2. Powder Metallurgy Processing of Metal Matrix Syntactic Foams
3.3. Concluding Remarks
3.4. Acknowledgements
3.5. References
Chapter 4. Aluminum Matrix Syntactic Foams
D. P. MONDAL and NIDHI JHA
4.1. Aluminum Syntactic Foams
4.2. Possible Applications
4.3. Hollow Particles
4.4. Methods of Preparations
4.5. Microstructure
4.6. Compressive Deformation
4.7. Tribological Behavior
4.8. Corrosion Behavior
4.9. Techno- and Socio-economic Analysis
4.10. Conclusions
4.11. References
Chapter 5. Magnesium Matrix Syntactic Foams
TOMOKO SANO, VINCENT HAMMOND and KYU CHO
5.1. Introduction
5.2. Processing and Microstructure
5.3. Concluding Remarks
5.4. Reference
Chapter 6. Zinc Matrix Syntactic and Composite Foams
A. DAOUD
6.1. Introduction
6.2. Hollow Particles
6.3. Zn Matrix Alloys
6.4. Processing Methods of Syntactic Foams
6.5. Structures of Syntactic Metal Matrix Composite Foams
6.6. Properties of Interest to the Syntactic Foam Application Designers
6.7. Suggested Applications of Syntactic Metal Matrix Composite Foams
6.8. Research Imperatives
6.9. References
Chapter 7. Titanium Matrix Syntactic Foams
XIAOBING XUE and YUYUAN ZHAO
7.1. Introduction
7.2. Manufacture
7.3. Structure and Mechanical Properties
7.4. Conclusions
7.5. References
Chapter 8. Iron Matrix Syntactic Foams
DIRK LEHMHUS, JORG WEISE and JOACHIM BAUMEISTER
8.1. Introduction
8.2. Production Processes
8.3. Pore and Microstructure
8.4. Mechanical Properties
8.5. Thermal and other Properties
8.6. Conclusion, Outlook and Application Potential
8.7. References
Chapter 9. Modeling and Simulations
DUNG D. LUONG and NIKHIL GUPTA
9.1. Introduction
9.2. Density and Porosity
9.3. Elastic Properties
9.4. Strength
9.5. Effect of Strain Rate on Stress-Strain Curves
9.6. Finite Element Analysis
9.7. Acknowledgments
9.8. References
Chapter 10. Modeling Unconstrained Compression of Metal Matrix Syntactic Foams
J. B. FERGUSON, JOSEPH A. SANTA MARIA, BENJAMIN F. SCHULTZ
and PRADEEP K. ROHATGI
10.1. Modeling of Metal Matrix Syntactic Foams
10.2. Case Study—Modeling the Mechanical Properties of Al-Alloy/Al2O3 Hollow Particle Metal Matrix Syntactic Foams
10.3. Concluding Remarks
10.4. Acknowledgements
10.5. Nomenclature
10.6. References
Chapter 11. Weight Saving Potential of Metal Matrix Syntactic Foams
NIKHIL GUPTA, DUNG D. LUONG and DINESH PINISETTY
11.1. Material Selection for Component Design
11.2. Relations between Density and Mechanical Properties
11.3. Acknowledgements
11.4. References
Chapter 12. Applications of Metal Matrix Syntactic Foams
GONZALO A. ROCHA RIVERO, BENJAMIN F. SCHULTZ and PRADEEP K. ROHATGI
12.1. Ground Transportation
12.2. Electronic Packaging
12.3. Aerospace
12.4. Defense
12.5. Biomedical
12.6. Building Applications
12.7. Summary Remarks
12.8. Acknowledgements
12.9. References
Index
Michael Hauck
DEStech Publications, Inc.
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