go back button
MIDASoft
By
November 19, 2018

Pile Foundation Design and Analysis

 

 

 

Detail of this Session
This online technical seminar will introduce the FEM approach to consider soil-structure interaction for shored excavations. Geotechnical engineers will be able to learn the advantages of 2D or 3D FEM compared to conventional design methods. Geotechnical engineers can also learn about the practical work flow of the user-friendly 3D Geotechnical FEM program GTS NX.

Learning Objectives
1. Key advantages of utilizing numerical modeling for shored excavation design
2. Comparison of finite element modeling with conventional design processes
3. Application of 3D FEM analysis for shored excavations

 

 

 


 

 speaker-icon1

Speaker :  MIDASoft, Inc.

Category : Geotechnical

Software : midas GTS NX

Date : 2014-03-28

 


 



 

 

Search Keyword search-icon

      Popular Tags

      Research Paper Tunnel Foundation Excavation Underground Dam Construction stage analysis Soil Structure Interaction 2D Consolidation Pile Wall geotechnical Seepage Structural Analysis Tutorial 3D modelling Ground Rail Seismic Slope groundwater midas Gen pressure settlements Alpine Base Tunnels Analysis of Finite Element Methode Combined Pile-Raft Foundations Complex Concrete Conference Couple Analysis Coupled Analysis DDM DFI Design analysis Displacement Diversion Tunnel Double shield TBMs Dynamic El Nino Elastic modulus Embankment Excavating Finite Element Foundation Differential Settlements Fracod Geometry High-rise building Highly Expansive Hoek-Brown criterion Intersection Live Load Analysis Long Drought Season Long deep tunnels Mcgill Monte Carlo ONKALO Parametric study Progressive Failure Purdue Raft Foundations Safety Factor Shrinkage Simultaneous Blasting Soil Soil Modeling Spalling Spalling prediction Squeezing Structural Design Substructure Thermal Analysis Vertical stress Void Creation alluvial anisotropic properties axial shear stresses barrette raft base buoyancy phenomenon numerically collapse compact crystalline rock deepening elasticity finite element method foundation design fractured zone geological investigation geomechanical parameter geophysics ground resistance hydraulic behavior instrumentation junction limestone cavity linear-elastic ground load transfer curves load transfer mechanism mechanism non linear analysis numerical analysis of pile group numerical method o-cell loading packer permeability testing pile loading portal pressuremeter testing rail tunnel retaining wall seismic loading sensitivity analysis shaft shallow depths spillways standard penetration testing stress and strain subsea temporary supports