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Plastic deformation and fracture in LiF Bicrystals with asymmetric tilt boundary
Author(s) -
Smirnov B. I.,
Snezhkova T. N.,
Volkova O. L.
Publication year - 1984
Publication title -
crystal research and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.377
H-Index - 64
eISSN - 1521-4079
pISSN - 0232-1300
DOI - 10.1002/crat.2170190820
Subject(s) - misorientation , materials science , slip (aerodynamics) , grain boundary , asymmetry , dislocation , condensed matter physics , frank read source , geometry , burgers vector , dislocation creep , enhanced data rates for gsm evolution , crystallography , composite material , microstructure , chemistry , physics , mathematics , thermodynamics , telecommunications , quantum mechanics , computer science
The peculiarities of plastic deformation and fracture in isoaxial LiF bicrystals with misorientation angle α = 10° and tilt boundary of various asymmetry were experimentally studied by the single slip method. It was found that a number of effects at the boundary, attacked by mixed dislocations, is possible: retardation of dislocations near the boundary and pile‐ups formation, dislocation multiplication, accumulation of grain boundary dislocations with differential Burgers vector. Predominance of each or that effect in the process of crack initiation at the definite misorientation angle depends on the mutual orientation of slip planes in the neighbouring grains and on the edge and screw component part in the dislocations, attacking the boundary. The main role, apparently, belongs to dislocation pile‐ups. Cracks are always nucleated in the boundary, but in the case of strong asymmetry they stretch along cubic planes.