Creative Malaysia Training Center
Creative Malaysia Training Center
Creative Malaysia Training Center
Creative Malaysia Training Center
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Geology, Drilling, Soil & Inspection Engineering

Numerical Analyses In Geotechnical Engineering And Computer Applications

  REF: GE535  DATES: 23 - 27 Sep 2019  (One Week)  VENUE: Malaysia (Kuala Lumpur)-Grand Millenium Hotel


Over the past ten years the use of sophisticated numerical techniques to analyse geotechnical problems has grown significantly. Such methods are now being used routinely in design, with many software packages available for performing the analysis. Due to the nonlinear nature of soil behaviour, the theory used by these programs is non-unique and therefore there are major differences in the way programs function. This can result in much confusion to the user.


the objective to provide insight into the use of advanced methods of analysis in geotechnical practice, in particular the finite element and, more recently, discrete element methods. By means of practical examples both the advantages, and restrictions and pitfalls, of these methods are presented and discussed. The lectures cover both static and dynamic analysis of saturated and unsaturated soils.

Who Should attend:

The course should be of interest to a wide range of practising civil engineers and numerical analysts at different stages in their careers. 

Out Lines:

 1. Introduction to Numerical Modeling in Geomechanics 

  • Role of numerical modeling in geotechnical engineering 
  • A Finite Element Program – PLAXIS 

 2. Finite Element Method (P&Z Sections 2.1-2.6) 

  • The finite element “approximation” 
  • Finite element formulation 
  • Isoparametric elements (quadrilateral, triangle) 
  • Development of finite element mesh 
  • Numerical procedures 

3. Constitutive Laws for Soil 

  • Linear Elasticity (P&Z Sections 5.1-5.6) 
  • Theory 
  • Isotropic/Anisotropic
  • Plane strain/plane stress/axisymmetry 
  • Linear Elastic-Perfectly Plastic (P&Z Sections 6.1-6.8, 7.1-7.7) 
  • Theory 
  • Yield Functions 
  • Non-Linear, Stress-Dependent Elastic Hyperbolic Model 
  • (Duncan et al. 1980, PLAXIS manual) 
  • Theory 
  • Developing model parameters from laboratory data 
  • Non-Linear, Elasto-Plastic, Strain-Hardening Model (P&Z Sections 7.9-7.10, VII.1-VII.4)
  • Hardening Laws 
  • Critical State Soil Mechanics 
  • Cam-Clay and Modified Cam-Clay models 
  • Developing Cam-Clay model parameters from laboratory data 

 4. Advanced FE Analysis and Other Analytical Procedures 

  • Soil-structure interaction 
  • Interface elements 
  • Finite difference method
23 - 27 Sep 2019
COURSE Duration
One Weeks
Malaysia (Kuala Lumpur)
Grand Millenium Hotel