Formation of Shear Zone's Defect Structure in F. C. C. Metals / V. V. Larionov [et al.]
Уровень набора: (RuTPU)RU\TPU\network\4598, Advanced Materials Research : Radiation and nuclear techniques in material science, Scientific JournalЯзык: английский.Серия: Materials Science and TechnologiesРезюме или реферат: As a result of the work of Frank-Read dislocation source the shear zone is formed. It is filled with deformation defects forming as a consequence of the dynamic features of the motion of dislocation loops and due to the interaction of shear forming dislocations with dislocations of non-coplanar slip systems. The accumulation of jogs on screw segments leads to the fact that the edge segments are moving faster than the screw segments so the shear zone is swept out generally by screw segments. The expressions of the intensities of the deformation defects accumulation in shear zones are given in the article. The point defects plays special role in the formation and evolution of misorientation substructures into deformed monocrystals, polycrystals and nanocrystals..Аудитория: .Тематика: электронный ресурс | труды учёных ТПУ | плотность дислокаций | дислокации | дивакансии | металлы | деформации | точечные дефекты | монокристаллы | вакансии Ресурсы он-лайн:Щелкните здесь для доступа в онлайнTitle screen
As a result of the work of Frank-Read dislocation source the shear zone is formed. It is filled with deformation defects forming as a consequence of the dynamic features of the motion of dislocation loops and due to the interaction of shear forming dislocations with dislocations of non-coplanar slip systems. The accumulation of jogs on screw segments leads to the fact that the edge segments are moving faster than the screw segments so the shear zone is swept out generally by screw segments. The expressions of the intensities of the deformation defects accumulation in shear zones are given in the article. The point defects plays special role in the formation and evolution of misorientation substructures into deformed monocrystals, polycrystals and nanocrystals.
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