Proceedings of the Korean Geotechical Society Conference (한국지반공학회:학술대회논문집)
- 2009.09a
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- Pages.1090-1094
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- 2009
Analyses of Large Deformation Problems in Geotechnical Engineering using Particle Method
입자법을 이용한 지반공학 대변형 문제 해석
- Park, Sung-Sik (Div. of Civil, Environmental & Urban Engineering, Wonkwang University)
- 박성식 (원광대학교 토목환경도시공학부)
- Published : 2009.09.25
Abstract
Many problems in geotechnical engineering such as slop failure, debris flow, ground heaving due to embankment, and lateral flow caused by liquefaction are related to large deformation rather than small deformation. Traditional numerical methods such as finite element and finite difference methods have a difficulty to solve such large deformations because they use grids. A particle method was developed for fluid dynamics. The particle method can solve large deformation problems because it uses particles to discretize differential equations. It can also include soil constitutive model and thus solve soil behavior on various boundary conditions. In this study, a particle method, which is based on particles rather than grids, is introduced and used to simulate large deformation including soil failure. The developed method can be applied for various large deformation problems in geotechnical engineering because it incorporates soil constitutive models.