## Treatise on Materials Science and Technology, Volume 4 |

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Page 199

B.

B.

**Thermodynamic**Properties ( Activity , Partial Enthalpy , and Partial Entropy ) 1.**THERMODYNAMIC**ACTIVITY Since any theoretical model must be ...Page 205

PARTIAL ENTHALPY AND ENTROPY To have a complete

PARTIAL ENTHALPY AND ENTROPY To have a complete

**thermodynamic**description of alloy phases requires the knowledge of either the partial enthalpy or entropy ...Page 223

We will now proceed to derive theoretical equations for all three

We will now proceed to derive theoretical equations for all three

**thermodynamic**properties following those of Gyuk et al . ( 1973 ) .### What people are saying - Write a review

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### Contents

RICHARD W VOOK | 2 |

Epitaxial Monocrystalline Films | 10 |

Polycrystalline Films | 37 |

Copyright | |

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### Common terms and phrases

activity addition alloys applied approximation average beam becomes calculated compaction component composition compression concentration considered constant copper correlation corresponding crystal cubic curve decreases defined deformation density dependence determined diffraction diffusion direction discussed dislocation disorder distribution effect electron elements energy enthalpy entropy equations example experimental expression factor fault field Figure forged function given gives increases influence interaction jump lattice material measurements mechanism metal method neighbor observed obtained occurs oriented parameter partial pattern phases Phys plane polycrystalline position possible powder present probability production properties random ratio reflections region relative respectively shown in Fig shows single crystals sintered solid solution solute atoms solvent specimen strain strengthening stress structure Substituting surface Table temperature theoretical theory thermodynamic thin films tracer twin vacancy values variations volume yield