Engineering Materials Technology: Structures, Processing, Properties, and SelectionEngineering Materials Technology continues to cover basic concepts in materials science, engineering and technology dealing with traditional as well as advanced materials. In addition to coverage of metals, polymers, ceramics and composites, the book offers introductions to emerging technologies such as micro/nano technology, environmentally friendly processes and products, smart and morphing materials and trends in surface science and engineering. Industrial and apprentice trainers. |
Contents
Nature Structure | 2 |
Module | 5 |
Nature the Family of Materials | 31 |
Copyright | |
38 other sections not shown
Common terms and phrases
adhesives Advanced Materials alloy aluminum amorphous annealed anode applications ASTM atomic number atoms austenite carbide carbon carbon fibers cast ceramics chemical coating components composite materials compounds conductivity cooling copper corrosion covalent bonds crystal structure crystalline curve deformation density developed ductility elastomers electrical electrons elements energy level engineering materials epoxy equilibrium example fabrication fibers Figure force fracture glass grain graphite hardness heat high-temperature hydrogen impact improved increase industry ions iron laminated lattice layers liquid load magnetic manufacturing martensite materials science matrix mechanical melting metal alloy microstructure Module molding molecules nanotechnology nickel oxide oxygen particles phase diagram plane plastics polymeric polymers powder produce properties reaction recycling reduce reinforcement resin resistance result rubber shape shows silicon sintering solid solution steel stress substrate superconductor surface Table techniques temperature tensile strength terials thermal thermoplastic titanium toughness unit cell valence wood