Introduction to Materials Science |
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Page 61
... plastic deformation are known as ( b ) . of plastic deformation , the yield strength of materials often increases appreciably ; this is called ( c ) . changes in shape , ( d ) — stress and ( e ) - Because of the large strain are used to ...
... plastic deformation are known as ( b ) . of plastic deformation , the yield strength of materials often increases appreciably ; this is called ( c ) . changes in shape , ( d ) — stress and ( e ) - Because of the large strain are used to ...
Page 359
... plastic car body is shown in Figure 8.5.4 . One of the current production processes for this body involves FV FIGURE 8.5.4 . Racing car with reinforced - plastic body . prepregs , fabric which has been impregnated with partially cured ...
... plastic car body is shown in Figure 8.5.4 . One of the current production processes for this body involves FV FIGURE 8.5.4 . Racing car with reinforced - plastic body . prepregs , fabric which has been impregnated with partially cured ...
Page 522
... plastic deformation occurs in the highly stressed region . In this case , work is done not only in creating surface area but in plastic deformation . The Griffith theory can be extended by replacing y by y + p1 where p is the plastic ...
... plastic deformation occurs in the highly stressed region . In this case , work is done not only in creating surface area but in plastic deformation . The Griffith theory can be extended by replacing y by y + p1 where p is the plastic ...
Contents
MECHANICAL PROPERTIES | 59 |
ELECTRIC AND MAGNETIC PROPERTIES | 95 |
THERMAL AND CHEMICAL PROPERTIES | 151 |
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alloy aluminum ANSWERS TO QUESTIONS atoms band behavior bonds called carbon cell chain charge chemical coefficient composition concentration configuration constant cooled copper corrosion crystal structure crystalline cubic curve decreases density diamond cubic dielectric diffusion dipole direction discussed domain electrical electron equation equilibrium eutectic eutectoid EXAMPLE ferromagnetic field fraction fracture Gibbs free energy glass grain boundaries graphite heat Hence high temperatures hydrogen ions iron kbars kinetic lattice layer liquid magnetic martensite materials mechanical melting point metal mole molecules motion NaCl Note oxide p-n junction particles pearlite phase diagram plane plastic polymer potential energy precipitate pressure problem properties radius reaction room temperature semiconductor shear stress shown in Figure shows silicon sodium solid solubility solution steel strain strength superconductors surface Table tensile thermal tion transformation unit vacancies valence valence band velocity viscosity volume yield stress zero