Abstract
![CDATA[In many geotechnical problems it is vital to consider the geometrical non-linearity caused by large deformation in order to capture a more realistic model of the true behaviour. The solutions so obtained should then be more accurate and reliable, which should ultimately lead to cheaper and safer design. The Arbitrary Lagrangian-Eulerian (ALE) method originated from fluid mechanics, but has now been well established for solving large deformation problems in geomechanics. This paper provides an overview of the ALE method and its challenges in tackling problems involving non-linearities due to material behaviour, large deformation, changing boundary conditions and time-dependency, including material rate effects and inertia effects in dynamic loading applications. Important aspects of ALE implementation into a finite element framework will also be discussed. This method is then employed to solve some interesting and challenging geotechnical problems such as the dynamic bearing capacity of footings on soft soils, consolidation of a soil layer under a footing, and the modelling of dynamic penetration of objects into soil layers.]]
Original language | English |
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Title of host publication | Proceedings of the Joint 9th World Congress on Computational Mechanics and 4th Asian Pacific Congress on Computational Mechanics (WCCM-APCOM 2010), 19-23 July, 2010, Sydney, Australia |
Publisher | Institute of Physics Publishing |
Number of pages | 11 |
ISBN (Print) | 9780980824407 |
DOIs | |
Publication status | Published - 2010 |
Event | World Congress on Computational Mechanics - Duration: 19 Aug 2010 → … |
Conference
Conference | World Congress on Computational Mechanics |
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Period | 19/08/10 → … |
Keywords
- computational mechanics
- geomechanics
- soils