The third edition includes new topics such as superplasticity and the Bauschinger Effect, expanded coverage of such areas as organic polymers and updated reading lists. It contains a section with 50 thought-provoking questions to check students' knowledge and understanding, as well as a series of useful appendices. It contains chapters on the structure of engineering materials, the determination of mechanical properties, and the structure – property relationships of metals and alloys, glasses and ceramics, organic polymeric materials and composite materials. 'Outstanding academic title for 2003 – this title has been selected for its excellence in scholarship and presentation, the significance of its contribution to the field, and because of its important treatment of its subject.' Choice magazine This third edition of what has become a modern classic presents a lively overview of materials science for students of structural and mechanical engineering. Apply core concepts in materials science to solve engineering problems. Select materials for design and construction. Recognize the failure of metals with structural change. Correlate the microstructure with properties, processing and performance of metals. Analyze the binary phase diagrams of alloys Fe-Fe 3 C, etc. Identify the crystal structures of metallic materials. Expected outcome: At the end of the course students will be able to 1. Syllabus:-Chemical bonds-crystallography-imperfections-crystallization-diffusion-phase diagrams-heat treatment-strengthening mechanisms-hot and cold working-alloying-ferrous and non ferrous alloys-fatigue-creep-basics, need, properties and applications of modern engineering materials. To determine properties of unknown materials and develop an awareness to apply this knowledge in material design. To understand the causes behind metal failure and deformation 5. To enable students to be more aware of the behavior of materials in engineering applications and select the materials for various engineering applications. To provide physical concepts of atomic radius, atomic structure, chemical bonds, crystalline and non-crystalline materials and defects of crystal structures, grain size, strengthening mechanisms, heat treatment of metals with mechanical properties and changes in structure 3. To provide fundamental science relevant to materials 2.
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