Materials Science Materials Science is a go-to textbook for the students of engineering for understanding the fundamental concepts of the subject. A lucidly and well-planned text, it deals with every concept individually and provides a holistic view to every concept. A book which has seen, foreseen and incorporated changes in the subject for more than 30 years, it continues to be one of the most sought after texts by the students for all aspects of the subject. |
Contents
1 | |
Part II Mechanical Behaviour of Metals | 134 |
Part III Engineering Metallurgy | 208 |
Part IV Engineering Materials | 253 |
Appendix A | 360 |
Appendix B | 361 |
362 | |
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Common terms and phrases
alloy already discussed aluminium anode applied atomic model atomic number atomic weight austenite axis body centred Brillouin zone brittle carbon steel cast iron cathode cementite ceramics chemical coating conductivity cooling copper corrosion covalent bond crack creep curve diagram direction dislocation ductility elastic electric field electronic configuration elements engineering equation Example ferrite fracture grain boundaries hardening hardness heat treatment hydrogen atom increase insulating interesting to know ionic ions known lattice load machine magnetic moments main shell martensite mechanical properties metal Miller indices modulus molecules N-type N-type semiconductor nickel number of atoms number of electrons observed orbit oxide P-N junction plastic deformation polarization polymerization polymers reciprocals of h resistance rubber s-block semiconductor shear stress shown in Fig silicon slip plane solids Solution specimen strain sub-shell subject point Summer surface takes place tensile strength transformation types unit cell valence band voltage Winter zinc