
Foundations of Materials Science and Engineering
5th EditionISBN10: 0073529249
ISBN13: 9780073529240
Copyright: 2010
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ISBN10: 0073529249 | ISBN13: 9780073529240
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The estimated amount of time this product will be on the market is based on a number of factors, including faculty input to instructional design and the prior revision cycle and updates to academic research-which typically results in a revision cycle ranging from every two to four years for this product. Pricing subject to change at any time.
The estimated amount of time this product will be on the market is based on a number of factors, including faculty input to instructional design and the prior revision cycle and updates to academic research-which typically results in a revision cycle ranging from every two to four years for this product. Pricing subject to change at any time.
Program Details
1 Introduction to Materials Science and Engineering
2 Atomic Structure and Bonding
3 Crystal and Amorphous Structures in Materials
4 Solidification, Crystalline Imperfections
5 Thermally Activated Processes and Diffusion in Solids
6 Mechanical Properties of Metals I
7 Mechanical Properties of Metals II
8 Phase Diagrams
9 Engineering Alloys
10 Polymeric Materials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
3 Crystal and Amorphous Structures in Materials
4 Solidification, Crystalline Imperfections
5 Thermally Activated Processes and Diffusion in Solids
6 Mechanical Properties of Metals I
7 Mechanical Properties of Metals II
8 Phase Diagrams
9 Engineering Alloys
10 Polymeric Materials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
5 Thermally Activated Processes and Diffusion in Solids
6 Mechanical Properties of Metals I
7 Mechanical Properties of Metals II
8 Phase Diagrams
9 Engineering Alloys
10 Polymeric Materials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
7 Mechanical Properties of Metals II
8 Phase Diagrams
9 Engineering Alloys
10 Polymeric Materials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
9 Engineering Alloys
10 Polymeric Materials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
17 Biological and Biomaterials
About the Author
William Smith
William F. Smith teaches at the University of Central Florida.
Javad Hashemi
Javad Hashemi teaches at Texas Tech University.
1 Introduction to Materials Science and Engineering
2 Atomic Structure and Bonding
3 Crystal and Amorphous Structures in Materials
4 Solidification, Crystalline Imperfections
5 Thermally Activated Processes and Diffusion in Solids
6 Mechanical Properties of Metals I
7 Mechanical Properties of Metals II
8 Phase Diagrams
9 Engineering Alloys
10 Polymeric Materials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
3 Crystal and Amorphous Structures in Materials
4 Solidification, Crystalline Imperfections
5 Thermally Activated Processes and Diffusion in Solids
6 Mechanical Properties of Metals I
7 Mechanical Properties of Metals II
8 Phase Diagrams
9 Engineering Alloys
10 Polymeric Materials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
5 Thermally Activated Processes and Diffusion in Solids
6 Mechanical Properties of Metals I
7 Mechanical Properties of Metals II
8 Phase Diagrams
9 Engineering Alloys
10 Polymeric Materials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
7 Mechanical Properties of Metals II
8 Phase Diagrams
9 Engineering Alloys
10 Polymeric Materials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
9 Engineering Alloys
10 Polymeric Materials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
11 Ceramics
12 Composite Materials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
13 Corrosion
14 Electrical Properties of Materials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
15 Optical Properties and Superconductive Materials
16 Magnetic Properties
17 Biological and Biomaterials
17 Biological and Biomaterials
About the Author
William Smith
William F. Smith teaches at the University of Central Florida.
Javad Hashemi
Javad Hashemi teaches at Texas Tech University.
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