Title :
Combined reactions associated with L10 ordering
Author_Institution :
Seagate Res., Pittsburgh, PA, USA
Abstract :
This paper attempts to describe fundamentally the differences observed for thin film and nanoparticle materials and review the microstructural evolution in bulk L10 alloys (i.e. FePt alloys). In bulk large grained materials, the L10 transformation is dominated by the coherent nucleation and growth of the ordered phase within the grain and the kinetics are controlled by lattice diffusion. Materials subjected to ordering are driven further from equilibrium by the introduction of a large density of crystalline defects such as dislocations, grain boundaries and surfaces. These materials allow for the possibility of other solid state reactions to occur which involve the annealing out of these defects by processes of recrystallization, grain growth, and sintering. Therefore, the kinetics of the ordering process is greatly enhanced due to the combined reactions by two mechanisms: the driving forces acting together to transform the material and the short circuit diffusion within the defects.
Keywords :
diffusion; dislocations; grain boundaries; grain growth; iron alloys; metallic thin films; nanoparticles; nucleation; platinum alloys; recrystallisation annealing; sintering; solid-state phase transformations; FePt; L10 transformation; annealing; coherent nucleation; crystalline defects; dislocations; grain boundaries; grain growth; microstructural evolution; nanoparticle materials; ordered phase growth; ordering process kinetics; recrystallization; short circuit diffusion; sintering; solid state reactions; thin film; Annealing; Crystalline materials; Grain boundaries; Grain size; Kinetic theory; Magnetic anisotropy; Magnetic materials; Magnetic recording; Nanoparticles; Phase change materials;
Conference_Titel :
Magnetics Conference, 2005. INTERMAG Asia 2005. Digests of the IEEE International
Print_ISBN :
0-7803-9009-1
DOI :
10.1109/INTMAG.2005.1464396
