Materials science and engineering properties / Charles M. Gilmore.

By: Gilmore, Charles M [author.]
Language: English Publisher: Stamford, CT : Cengage Learning, [2015]Edition: SI editionDescription: xxvi, 726 pages : color illustrations ; 27 cmContent type: text Media type: unmediated Carrier type: volumeISBN: 9781111988616; 9781111988609Subject(s): Materials science -- TextbooksDDC classification: 620.11 LOC classification: TA403 | .G523 2015Online resources: Contributor biographical information | Publisher description | Table of contents only
Contents:
1. Introduction. 2. Atoms, Chemical Bonding, Material Structure, and Physical Properties. 3. The Structure of Real Materials. 4. Temperature Effects on Atom Arrangements and Atom Motion. 5. Phase Transformations and Phase Diagrams. 6. Introduction to Mechanical Properties. 7. Making Strong Materials. 8. Engineering Materials. 9. Time, Temperature, and Mechanical Properties. 10. Oxidation, Degradation, Corrosion, Electroprocessing, Batteries, and Fuel Cells. 11. Fracture and Fatigue. 12. Composite Materials. 13. Materials Processing. 14. Material Selection. 15. Experimental Methods. 16. Electrical Properties of Materials. 17. Magnetic Materials. 18. Photonic Materials.
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Item type Current location Home library Call number Copy number Status Date due Barcode Item holds
BOOK BOOK COLLEGE LIBRARY
COLLEGE LIBRARY
SUBJECT REFERENCE 		620.11 G422 2015 (Browse shelf) c.1 Available CITU-CL-45906
BOOK BOOK COLLEGE LIBRARY
COLLEGE LIBRARY
SUBJECT REFERENCE 		620.11 G422 2015 (Browse shelf) c.2 Available CITU-CL-46516
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Includes bibliographical references and index.

1. Introduction. 2. Atoms, Chemical Bonding, Material Structure, and Physical Properties. 3. The Structure of Real Materials. 4. Temperature Effects on Atom Arrangements and Atom Motion. 5. Phase Transformations and Phase Diagrams. 6. Introduction to Mechanical Properties. 7. Making Strong Materials. 8. Engineering Materials. 9. Time, Temperature, and Mechanical Properties. 10. Oxidation, Degradation, Corrosion, Electroprocessing, Batteries, and Fuel Cells. 11. Fracture and Fatigue. 12. Composite Materials. 13. Materials Processing. 14. Material Selection. 15. Experimental Methods. 16. Electrical Properties of Materials. 17. Magnetic Materials. 18. Photonic Materials.

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