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Time-Dependent Three-Dimensional Finite-Element Ground Model for Geotechnical Engineering Problems

Diaz, Joaquin ; Meißner, Udo ; Burghardt, Michael
ed.: Fruchter, Renate (2000)
Time-Dependent Three-Dimensional Finite-Element Ground Model for Geotechnical Engineering Problems.
International Conference on Computing in Civil and Building Engineering (ICCCBE). Stanford, USA (14.-16. August 2000)
Conference or Workshop Item, Bibliographie

Abstract

The comprehensive modelling of soil-structure interaction requires three-dimensional dynamic design systems, which capture the changes that occur on the geotechnical components during the construction progress. The powerful generation and administration of the complex time-dependent geotechnical model need holistic computational tools for the management, the visualization and the proof of the engineering system. The system introduced allows a time-dependent management of the individual stages of the construction by a dynamic model in consideration of the ground properties, the geotechnical construction elements and the construction processes. An automatic mesh generation enables the generation of hexahedron meshes for the finite-element representation. The implementation of the system was achieved using object oriented modelling techniques and implementation in C++.

Item Type: Conference or Workshop Item
Erschienen: 2000
Editors: Fruchter, Renate
Creators: Diaz, Joaquin ; Meißner, Udo ; Burghardt, Michael
Type of entry: Bibliographie
Title: Time-Dependent Three-Dimensional Finite-Element Ground Model for Geotechnical Engineering Problems
Language: English
Date: August 2000
Place of Publication: Reston, Va.
Publisher: American Society of Civil Engineers
Book Title: Computing in Civil and Building Engineering: Proceedings of the Eighth International Conference
Event Title: International Conference on Computing in Civil and Building Engineering (ICCCBE)
Event Location: Stanford, USA
Event Dates: 14.-16. August 2000
Corresponding Links:
Abstract:

The comprehensive modelling of soil-structure interaction requires three-dimensional dynamic design systems, which capture the changes that occur on the geotechnical components during the construction progress. The powerful generation and administration of the complex time-dependent geotechnical model need holistic computational tools for the management, the visualization and the proof of the engineering system. The system introduced allows a time-dependent management of the individual stages of the construction by a dynamic model in consideration of the ground properties, the geotechnical construction elements and the construction processes. An automatic mesh generation enables the generation of hexahedron meshes for the finite-element representation. The implementation of the system was achieved using object oriented modelling techniques and implementation in C++.

Additional Information:

ISBN: 0-7844-0513-1

Divisions: 13 Department of Civil and Environmental Engineering Sciences
13 Department of Civil and Environmental Engineering Sciences > Institute of Numerical Methods and Informatics in Civil Engineering
Date Deposited: 19 Nov 2008 16:25
Last Modified: 22 Jan 2015 16:18
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