## Treatise on materials science and technology |

### From inside the book

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Page 165

33

grain, where it is easy to see that the zone round its tip

plasticity, even at high magnification and after a light etch. Clearly the zone

33

**shows**the tip of such a shear crack that has halted part way through a sliplessgrain, where it is easy to see that the zone round its tip

**shows**no sign of slip orplasticity, even at high magnification and after a light etch. Clearly the zone

**shows**...Page 186

Substitution of Eq. (12) into the last term of Eq. (11)

term is small compared to the other two terms, i.e., the self and interaction

energies. On the other hand, the importance of the APB energy term

its ...

Substitution of Eq. (12) into the last term of Eq. (11)

**shows**that the APB energyterm is small compared to the other two terms, i.e., the self and interaction

energies. On the other hand, the importance of the APB energy term

**shows**up inits ...

Page 210

Referring again to Figs. 15 and 16

equilibrated fully ordered alloys is somewhat higher than that for the equilibrated

disordered alloys. Similar findings have been made with respect to the Fe3Al

alloy[56,67].

Referring again to Figs. 15 and 16

**shows**that the yield stresses for theequilibrated fully ordered alloys is somewhat higher than that for the equilibrated

disordered alloys. Similar findings have been made with respect to the Fe3Al

alloy[56,67].

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### Contents

Introduction | 2 |

Formal Relations for Solutions | 3 |

Phase Relations | 12 |

Copyright | |

17 other sections not shown

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### Common terms and phrases

alkali halides applied stress atomic ordering behavior Burgers vector center concentration Chem color centers components configuration cross slip cyclic deformation dislocation loop disordered alloy effect elastic collisions equation equilibrium excited F amplitudes F band F centers FeCo alloy flow stress fracture fully ordered given by Eq grain high energy impurities interaction interstitial ionic irradiation lattice low temperatures luminescence magnetic Marcinkowski materials McLellan measurements mechanism nearest neighbor neutron nuclear occur optical absorption ordered alloys ordinary dislocations pair production pairs particle photochemical photoluminescence photon Phys plastic fatigue plastic strain point defects Pooley Proc produced R. G. Davies radiation damage processes recombination room temperature shown in Fig shows Sibley single crystals slip bands slip plane sodalite solid solute atoms Sonder stage Status Solidi stress-strain curves structure studies superlattice dislocation techniques temperature dependence thermal thermodynamic tion trapped twinning vacancies values yield stress