Numerical simulation of elasto-plastic deformation of artificial 3D-structures

Varvara A. Romanova, Ruslan Revovich Balokhonov

Результат исследований: Материалы для книги/типы отчетовМатериалы для конференции

2 Цитирования (Scopus)

Выдержка

In this contribution, a mesomechanical approach to simulate the elasto-plastic behavior of heterogeneous media with explicit consideration for the material structure has been extended to the three-dimensional case. Polycrystalline and metal matrix composite structures have been designed via a special method developed in our earlier work. Three-dimensional simulations of elasto-plastic deformation of the structures under tension have been performed by the finite difference approximation technique. The results of the 3D-calculations have been analyzed and compared with those obtained from the 2D-approximation. The analysis of the 3D structure behavior at different scale levels is made on the base of the mesomechanical concept.

Язык оригиналаАнглийский
Название основной публикацииMultiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics
РедакторыG.C. Sih, T.B. Kermanidis, S.G. Pantelakis
Страницы266-272
Число страниц7
СостояниеОпубликовано - 2004
Опубликовано для внешнего пользованияДа
СобытиеMultiscaling in Applied Science and Emerging Technology; Fundamentals and Applications in Mesomechanics:Proceedings of the Sixth International Conference for Mesomechanics - Patras, Греция
Продолжительность: 31 мая 20044 июн 2004

Другое

ДругоеMultiscaling in Applied Science and Emerging Technology; Fundamentals and Applications in Mesomechanics:Proceedings of the Sixth International Conference for Mesomechanics
СтранаГреция
ГородPatras
Период31.5.044.6.04

Отпечаток

Composite structures
Plastic deformation
Plastics
Computer simulation
Metals

ASJC Scopus subject areas

  • Engineering(all)

Цитировать

Romanova, V. A., & Balokhonov, RR. (2004). Numerical simulation of elasto-plastic deformation of artificial 3D-structures. В G. C. Sih, T. B. Kermanidis, & S. G. Pantelakis (Ред.), Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics (стр. 266-272)

Numerical simulation of elasto-plastic deformation of artificial 3D-structures. / Romanova, Varvara A.; Balokhonov, Ruslan Revovich.

Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics. ред. / G.C. Sih; T.B. Kermanidis; S.G. Pantelakis. 2004. стр. 266-272.

Результат исследований: Материалы для книги/типы отчетовМатериалы для конференции

Romanova, VA & Balokhonov, RR 2004, Numerical simulation of elasto-plastic deformation of artificial 3D-structures. в GC Sih, TB Kermanidis & SG Pantelakis (ред.), Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics. стр. 266-272, Patras, Греция, 31.5.04.
Romanova VA, Balokhonov RR. Numerical simulation of elasto-plastic deformation of artificial 3D-structures. В Sih GC, Kermanidis TB, Pantelakis SG, редакторы, Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics. 2004. стр. 266-272
Romanova, Varvara A. ; Balokhonov, Ruslan Revovich. / Numerical simulation of elasto-plastic deformation of artificial 3D-structures. Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics. редактор / G.C. Sih ; T.B. Kermanidis ; S.G. Pantelakis. 2004. стр. 266-272
@inproceedings{d4c83be19e084c82af065f7a4f84b75e,
title = "Numerical simulation of elasto-plastic deformation of artificial 3D-structures",
abstract = "In this contribution, a mesomechanical approach to simulate the elasto-plastic behavior of heterogeneous media with explicit consideration for the material structure has been extended to the three-dimensional case. Polycrystalline and metal matrix composite structures have been designed via a special method developed in our earlier work. Three-dimensional simulations of elasto-plastic deformation of the structures under tension have been performed by the finite difference approximation technique. The results of the 3D-calculations have been analyzed and compared with those obtained from the 2D-approximation. The analysis of the 3D structure behavior at different scale levels is made on the base of the mesomechanical concept.",
keywords = "3D-structure, Computational mechanics, Elasto-plastic behaviour, Mesomechanics",
author = "Romanova, {Varvara A.} and Ruslan Revovich Balokhonov",
year = "2004",
language = "English",
isbn = "960881040X",
pages = "266--272",
editor = "G.C. Sih and T.B. Kermanidis and S.G. Pantelakis",
booktitle = "Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics",

}

TY - GEN

T1 - Numerical simulation of elasto-plastic deformation of artificial 3D-structures

AU - Romanova, Varvara A.

AU - Balokhonov, Ruslan Revovich

PY - 2004

Y1 - 2004

N2 - In this contribution, a mesomechanical approach to simulate the elasto-plastic behavior of heterogeneous media with explicit consideration for the material structure has been extended to the three-dimensional case. Polycrystalline and metal matrix composite structures have been designed via a special method developed in our earlier work. Three-dimensional simulations of elasto-plastic deformation of the structures under tension have been performed by the finite difference approximation technique. The results of the 3D-calculations have been analyzed and compared with those obtained from the 2D-approximation. The analysis of the 3D structure behavior at different scale levels is made on the base of the mesomechanical concept.

AB - In this contribution, a mesomechanical approach to simulate the elasto-plastic behavior of heterogeneous media with explicit consideration for the material structure has been extended to the three-dimensional case. Polycrystalline and metal matrix composite structures have been designed via a special method developed in our earlier work. Three-dimensional simulations of elasto-plastic deformation of the structures under tension have been performed by the finite difference approximation technique. The results of the 3D-calculations have been analyzed and compared with those obtained from the 2D-approximation. The analysis of the 3D structure behavior at different scale levels is made on the base of the mesomechanical concept.

KW - 3D-structure

KW - Computational mechanics

KW - Elasto-plastic behaviour

KW - Mesomechanics

UR - http://www.scopus.com/inward/record.url?scp=6344278298&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=6344278298&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:6344278298

SN - 960881040X

SP - 266

EP - 272

BT - Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics

A2 - Sih, G.C.

A2 - Kermanidis, T.B.

A2 - Pantelakis, S.G.

ER -