Chemical and deformational controls on recrystallization of mica
MA Etheridge, BE Hobbs - Contributions to Mineralogy and Petrology, 1974 - Springer
Contributions to Mineralogy and Petrology, 1974•Springer
Chemical and microstructural data from one experimentally and two naturally deformed and
recrystallized micas are discussed in terms of established metallurgical mechanisms for
strain-induced nucleation and growth during recrystallization. It is suggested that none of
these nucleation mechanisms is applicable, and that nucleation is driven by energy from
both chemical and permanent strain sources. Subsequent growth of the nuclei is influenced
by the deformation or by coincidence lattice relationships.
recrystallized micas are discussed in terms of established metallurgical mechanisms for
strain-induced nucleation and growth during recrystallization. It is suggested that none of
these nucleation mechanisms is applicable, and that nucleation is driven by energy from
both chemical and permanent strain sources. Subsequent growth of the nuclei is influenced
by the deformation or by coincidence lattice relationships.
Abstract
Chemical and microstructural data from one experimentally and two naturally deformed and recrystallized micas are discussed in terms of established metallurgical mechanisms for strain-induced nucleation and growth during recrystallization. It is suggested that none of these nucleation mechanisms is applicable, and that nucleation is driven by energy from both chemical and permanent strain sources. Subsequent growth of the nuclei is influenced by the deformation or by coincidence lattice relationships.
Springer
以上显示的是最相近的搜索结果。 查看全部搜索结果