Fundamentals of Materials Science and Engineering: An Integrated Approach"This text treats the important properties of the three primary types of materials--metals, ceramics, and polymers--as well as composites, and the relationships that exist between the structural elements of these materials and their properties. Emphasis is placed on mechanical behavior and failure including, techniques that are employed to improve the mechanical and failure characteristics in terms of alteration of structural elements. Furthermore, individual chapters discuss each of corrosion, electrical, thermal, magnetic, and optical properties. New and cutting-edge materials are also discussed. Even if an instructor does not have a strong materials background (i.e., is from mechanical, civil, chemical, or electrical engineering, or chemistry departments), he or she can easily teach from this text. The material is not at a level beyond which the students can comprehend--an instructor would not have to supplement in order to bring the students up to the level of the text. Also, the author has attempted to write in a concise, clear, and organized manner, using terminology that is familiar to the students. Extensive student and instructor resource supplements are also provided."--Publisher's description. |
Contents
1 | 4 |
1 | 10 |
Atomic Structure and Interatomic | 17 |
B 5 | 25 |
ATOMIC BONDING IN SOLIDS | 26 |
8 | 35 |
CRYSTALLOGRAPHIC POINTS DIRECTIONS | 64 |
Crystallographic Planes | 72 |
21 | 401 |
Temperatures | 466 |
Electrical Properties | 483 |
7 | 490 |
SEMICONDUCTIVITY | 496 |
13 | 503 |
15 | 509 |
16 | 516 |
17 | 81 |
Noncrystalline Solids | 87 |
Polymer Structures | 102 |
5 | 111 |
9 | 120 |
Imperfections in Solids | 134 |
Mechanical Properties | 200 |
7 | 209 |
9 | 222 |
11 | 224 |
HARDNESS AND OTHER MECHANICAL PROPERTY | 233 |
18 | 239 |
Deformation and Strengthening | 260 |
Factors That Influence the Mechanical | 290 |
Equation Summary | 298 |
Design Problems | 307 |
METALS 261 | 313 |
3 | 326 |
B 7 | 327 |
5 | 332 |
10 | 342 |
18 | 347 |
Phase Diagrams | 359 |
BINARY PHASE DIAGRAMS | 365 |
B 8 | 369 |
Isomorphous Alloys | 371 |
12 | 380 |
17 | 395 |
20 | 522 |
Miscellaneous Applications | 583 |
ProcessingStructurePropertiesPerformance | 590 |
3 | 598 |
6 | 604 |
FABRICATION OF CERAMIC MATERIALS | 613 |
13 | 620 |
SYNTHESIS AND FABRICATION | 627 |
Corrosion and Degradation | 689 |
Important Terms and Concepts 641 | 699 |
CORROSION OF CERAMIC MATERIALS | 720 |
Thermal Properties | 733 |
4 | 741 |
Magnetic Properties | 751 |
1 | 761 |
8 | 767 |
APPLICATIONS OF OPTICAL PHENOMENA | 801 |
Economic Environmental | 816 |
1 | 824 |
15 | 904 |
Appendix A The International System | 828 |
5 | 838 |
Metal Alloy Compositions | 857 |
Repeat Unit Structures | 864 |
16 | 918 |
M | 39 |
cording to both yielding and leakbeforebreak criteria For these reasons many pressure | 92 |
99 | |
Other editions - View all
Fundamentals of Materials Science and Engineering: SI Version William D. Callister,David G. Rethwisch No preview available - 2012 |
Fundamentals of Materials Science and Engineering: an Integrated Approach, 5e William D. Callister No preview available - 2019 |
Common terms and phrases
alloy aluminum annealing applied ASM International atoms austenite bainite band gap behavior bonding brittle carbon cast cementite ceramic ceramic materials characteristics coefficient components composition Compute concentration Concept Check cooling corrosion crack crystal structure crystalline cubic curve density diameter dielectric diffusion dislocation ductility electron energy Engineering Equation eutectic eutectoid fatigue ferrite ferromagnetic fiber found at www.wiley.com/college/callister fraction fracture Furthermore glass grain hardening hardness heat treatment impurity ions iron liquid magnetic martensite Materials Park matrix mechanical properties melting temperature microstructure modulus of elasticity mold molecular weight molecules oxide particles pearlite phase diagram plane plastic deformation polarization polymeric polymers produced quenched reaction region relatively repeat unit resistance room temperature Schematic Section semiconductors shear shown in Figure silicon specimen steel alloy strain stress stress-strain surface Table techniques tempered tensile strength termed thermal tion transformation unit cell values Wiley & Sons www.wiley.com/college/callister Student Companion yield strength