Abstract
The behaviour of the ½
a
<111> screw dislocation core in the presence of an external shear stress on {110} planes has been studied for a variety of effective interionic potentials, each representing a stable b. c. c. lattice. The distortion and motion of the core are described using the concept of fractional dislocations, which are imperfect dislocations bounding a ribbon of generalized (unstable) stacking fault. Three essentially distinct types of movement are found, and the relation of these to plastic flow and twinning in real b. c. c. metals is discussed. It is found that the movement of the dislocation core can be rationalized in terms of the relative stresses needed to create generalized stacking faults on {110} and {112} planes.
Reference45 articles.
1. The mechanical properties of pure iron tested in compression over the temperature range 2 to 293 °K
2. Screw dislocation in a model sodium lattice
3. Can;Basinski Z. S.;J. Phys.,1971
4. Basinski Z. S. Duesbery M. S. & Taylor R. 19716 Interatomic potentials and simulation of lattice defects Battelle Colloquium (ed. P. C. Gehlen J. R. Beeler Jr. and R. I. Jaffee) p. 537. New York and London: Plenum Press.
5. 6 Can;Basinski Z. S.;J. Phys.,1970
Cited by
163 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献