Physical Metallurgy and Advanced Materials: Edition 7
About this ebook
This book provides coverage of new materials characterization techniques, including scanning tunneling microscopy (STM), atomic force microscopy (AFM), and nanoindentation. It also boasts an updated coverage of sports materials, biomaterials and nanomaterials. Other topics range from atoms and atomic arrangements to phase equilibria and structure; crystal defects; characterization and analysis of materials; and physical and mechanical properties of materials. The chapters also examine the properties of materials such as advanced alloys, ceramics, glass, polymers, plastics, and composites. The text is easy to navigate with contents split into logical groupings: fundamentals, metals and alloys, nonmetals, processing and applications. It includes detailed worked examples with real-world applications, along with a rich pedagogy comprised of extensive homework exercises, lecture slides and full online solutions manual (coming). Each chapter ends with a set of questions to enable readers to apply the scientific concepts presented, as well as to emphasize important material properties.
Physical Metallurgy and Advanced Materials is intended for senior undergraduates and graduate students taking courses in metallurgy, materials science, physical metallurgy, mechanical engineering, biomedical engineering, physics, manufacturing engineering and related courses.
- Renowned coverage of metals and alloys, plus other materials classes including ceramics and polymers.
- Updated coverage of sports materials, biomaterials and nanomaterials.
- Covers new materials characterization techniques, including scanning tunneling microscopy (STM), atomic force microscopy (AFM), and nanoindentation.
- Easy to navigate with contents split into logical groupings: fundamentals, metals and alloys, nonmetals, processing and applications.
- Detailed worked examples with real-world applications.
- Rich pedagogy includes extensive homework exercises.
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About the author
After gaining his PhD in 1953, Professor Smallman spent five years at the Atomic Energy ResearchEstablishment at Harwell before returning to the University of Birmingham, where he became Professorof Physical Metallurgy in 1964 and Feeney Professor and Head of the Department of PhysicalMetallurgy and Science of Materials in 1969. He subsequently became Head of the amalgamatedDepartment of Metallurgy and Materials (1981), Dean of the Faculty of Science and Engineering, andthe first Dean of the newly created Engineering Faculty in 1985. For five years he wasVice-Principalof the University (1987-92).He has held visiting professorship appointments at the University of Stanford, Berkeley, Pennsylvania(USA), New SouthWales (Australia), Hong Kong and Cape Town, and has received HonoraryDoctorates from the University of Novi Sad (Yugoslavia), University ofWales and Cranfield University.His research work has been recognized by the award of the Sir George Beilby Gold Medal of theRoyal Institute of Chemistry and Institute of Metals (1969), the Rosenhain Medal of the Institute ofMetals for contributions to Physical Metallurgy (1972), the Platinum Medal, the premier medal ofthe Institute of Materials (1989), and the Acta Materialia Gold Medal (2004).Hewas elected a Fellowof the Royal Society (1986), a Fellowof the RoyalAcademy of Engineering(1990), a Foreign Associate of the United States National Academy of Engineering (2005), andappointed a Commander of the British Empire (CBE) in 1992. A former Council Member of theScience and Engineering Research Council, he has been Vice-President of the Institute of Materialsand President of the Federated European Materials Societies. Since retirement he has been academicconsultant for a number of institutions both in the UK and overseas.
Professor Ngan obtained his PhD on electron microscopy of intermetallics in 1992 at the Universityof Birmingham, under the supervision of Professor Ray Smallman and Professor Ian Jones. He thencarried out postdoctoral research at Oxford University on materials simulations under the supervisionof Professor David Pettifor. In 1993, he returned to the University of Hong Kong as a Lecturer inMaterials Science and Solid Mechanics, at the Department of Mechanical Engineering. In 2003,he became Senior Lecturer and in 2006 Professor. His research interests include dislocation theory,electron microscopy of materials and, more recently, nanomechanics. He has published over 120refereed papers, mostly in international journals. He received a number of awards, including theWilliamson Prize (for being the top Engineering student in his undergraduate studies at the Universityof Hong Kong), Thomas Turner Research Prize (for the quality of his PhD thesis at the University ofBirmingham), Outstanding Young Researcher Award at the University of Hong Kong, and in 2007was awarded the Rosenhain Medal of the Institute of Materials, Minerals and Mining. He also heldvisiting professorship appointments at Nanjing University and the Central Iron and Steel ResearchInstitute in Beijing, and in 2003, he was also awarded the Universitas 21 Fellowship to visit theUniversity of Auckland. He is active in conference organization and journal editorial work.
