The Theory of Transformations in Metals and Alloys: Equilibrium and general kinetic theory |
Contents
GENERAL INTRODUCTION | 1 |
FORMAL GEOMETRY OF CRYSTAL LATTICES | 21 |
3 | 68 |
Copyright | |
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Acta metall activation energy alloys approximation assembly assumed assumption atoms axis b.c.c. structure Burgers vector Cahn calculation close-packed components composition concentration configuration considered constant corresponding crystal cubic curve defined deformation density diffusion coefficient direction discussed dislocation line displacements distance divacancy edge dislocation effect elastic embryos entropy equation equilibrium equivalent experimental expression factor force free energy function given gives glide plane grain boundary growth rate imperfect dislocations interaction interface interstitial invariant plane kinetic lattice points liquid loop martensitic matrix nearest neighbour normal nucleation rate nucleus obtained orientation parameters particles phase Phys point defects positions possible radius reaction region relation rotation screw dislocation Section shape shear shear stress solid solution solute atom stacking fault strain energy superlattice supersaturation surface energy symmetrical temperature tensor theory thermal thermodynamic tion transformation twin unit cell vacancy vapour velocity volume zero