Abstract
A model of twin growth in magnesium is presented together with the analysis of defects responsible for this growth. The twin interface is represented by and basal-prismatic facets. Disclinations are situated in the facet junctions creating dipoles superimposed on basal-prismatic and conjugate twin facets. The migration of facets is mediated by the conservative motion of interfacial disconnections. The
interfaces contain
twinning disconnections. The facet junctions serve as sources and sinks for these defects. Two types of disconnections (
and
) were observed in basal-prismatic boundary. The dipoles of
disconnections were nucleated in the vicinity of existing defects of this type. Interaction of this dipole with existing
leads to the creation of a
disconnection, which is later absorbed in the facet junction. The nucleation of
dipoles was not observed. In twin embryo growth, the basal-prismatic segments remain coherent with a fixed length, while the twin segments grow indefinitely.
Keywords:
Acknowledgement
We gratefully acknowledge Prof. R.C. Pond for invaluable discussions.
Funding
This work was supported by the Ministry of Education, Youth and Sports of the Czech Republic [grant number CZ.1.07/2.3.00/30.0063]; Academy of Sciences of the Czech Republic, project no. RVO: 68081723; the Central European Institute of Technology (CEITEC) with research infrastructure supported by project CZ.1.05/1.1.00/02.0068; the Spanish Secretariat of Research, Development and Innovation under [grant number FIS2012-39443-C02-02] and the Catalan Government under [grant number AGAUR2014SGR 1644].