Numerical study of the surface hardening effect on the deformation-induced roughening in titanium polycrystals / V. A. Romanova [et al.]

Уровень набора: Computational Materials ScienceАльтернативный автор-лицо: Romanova, V. A., specialist in the field of materials science, senior researcher at Tomsk Polytechnic University, 1971-, Varvara Aleksandrovna;Balokhonov, R. R., physicist, senior researcher at Tomsk Polytechnic University, 1972-, Ruslan Revovich;Zinovjeva, O. S., Olga Sergeevna;Shakhidzhanov, V. S., Valery SurenovichКоллективный автор (вторичный): Национальный исследовательский Томский политехнический университет (ТПУ), Институт физики высоких технологий (ИФВТ), Кафедра физики высоких технологий в машиностроении (ФВТМ)Язык: английский.Страна: .Резюме или реферат: A three-dimensional numerical analysis is performed of the deformation-induced roughening in polycrystalline specimens with and without surface-hardened layers. Three-dimensional microstructurebased constitutive models are developed, using crystal plasticity, and employed in finite element calculations of uniaxial tension. Grain structure is shown to be responsible for free surface roughening under uniaxial loading. Microscale stresses acting normally to the free surface in the bulk of the material are associated with normal displacements. The surface-hardened layer moves the grain structure away from the free surface, smoothing out the microscale folds formed due to displacements of individual grains, while the mesoscale surface undulations remain clearly visible..Примечания о наличии в документе библиографии/указателя: [References: p. 102 (24 tit.)].Аудитория: .Тематика: электронный ресурс | труды учёных ТПУ | титановые сплавы | поверхностное упрочнение | шероховатости | микроструктуры Ресурсы он-лайн:Щелкните здесь для доступа в онлайн
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[References: p. 102 (24 tit.)]

A three-dimensional numerical analysis is performed of the deformation-induced roughening in polycrystalline specimens with and without surface-hardened layers. Three-dimensional microstructurebased constitutive models are developed, using crystal plasticity, and employed in finite element calculations of uniaxial tension. Grain structure is shown to be responsible for free surface roughening under uniaxial loading. Microscale stresses acting normally to the free surface in the bulk of the material are associated with normal displacements. The surface-hardened layer moves the grain structure away from the free surface, smoothing out the microscale folds formed due to displacements of individual grains, while the mesoscale surface undulations remain clearly visible.

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