Introduction to Engineering MaterialsDesigned for the general engineering student, Introduction to Engineering Materials, Second Edition focuses on materials basics and provides a solid foundation for the non-materials major to understand the properties and limitations of materials. Easy to read and understand, it teaches the beginning engineer what to look for in a particular |
Contents
1 | |
Chapter 2 Properties and Their Measurement | 25 |
Chapter 3 Atomic Structure and Atomic Bonds | 67 |
Chapter 4 Structure of Crystalline Solids | 93 |
Chapter 5 Diffusion and Plastic Deformation | 111 |
Chapter 6 Property Management of Metallic Materials | 151 |
Chapter 7 Ceramics | 207 |
Chapter 8 The Structure and Properties of Polymers | 249 |
Chapter 11 Magnetic Materials | 335 |
Chapter 12 Optical Materials | 349 |
Chapter 13 Semiconductor Processing | 359 |
Chapter 14 Environmental Degradation of Engineering Materials | 383 |
Chapter 15 Materials and Process Selection | 431 |
Chapter 16 Ferrous and Nonferrous Metals for Special Applications | 443 |
Chapter 17 Comparative Properties | 489 |
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Other editions - View all
Introduction to Engineering Materials George Murray,Charles V. White,Wolfgang Weise No preview available - 2007 |
Introduction to Engineering Materials George Murray,Charles V White,Wolfgang Weise No preview available - 2019 |
Common terms and phrases
alloys alumina aluminum aluminum alloys annealed anode applications ASM International atomic number atoms austenitic bond boron brittle carbide carbon cathode ceramic chemical chromium common composites compound conductivity cooling copper corrosion crack crystalline cubic curve density diffusion dislocation ductility electrical electrons elements Engineering Materials Equation eutectic eutectoid example ferrite ferromagnetic fibers fracture toughness galvanic cell glass grain boundaries graphite hardening hardness heat hydrogen increase Introduction to Engineering ions lattice layer liquid load magnetic martensite matrix mechanical melting Metals Handbook Metals Park method microstructure modulus mold molecule nickel occurs oxide oxygen particles pearlite permission phase diagram plastic deformation polymer properties quenched reaction region resistance room temperature semiconductor shown in Figure silicon sintering slip solid solution solubility stainless steels strain stress superalloys surface Table Technical Ceramics thermal thermoplastic titanium unit cell valence values wafer yield strength