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Three dimensional finite element analysis of brittle materials using CDM model
Asad-ur-Rehman Khan
Civil Engineering
June 1994
Abstract
It is well documented that the major part of the nonlinearity in concrete is attributed to the development of microcracks and microvoids which tend to destroy the interface of bond between the cement matrix and aggregate and/or destroy the material grains and thus affecting the elastic properties.
In the past two decades, the damage mechanics approach has emerged as a viable framework for the description of the observed phenomenological behavior of concrete such as material stiffness degradation, microcrack initiation and the strong directionality of DAMAGE.
It is the objective of this thesis to incorporate a continuum damage model into a three dimensional finite element code (DAMAG3D) to predict the ultimate capacity and the overall response of structures made up of britle materials. The model is verified through the well-known Brazilian test, uniaxial compression test and plain concrete prism under strip loading. Numerical predictions are compared with the experimental results and the results predicted by other models.
Three Dimensional Finite Element Analysis of Brittle Materials Using CDM Model
by
Asad-ur-Rehman Khan
A Thesis Presented to the
FACULTY OF THE COLLEGE OF GRADUATE STUDIES
KING FAHD UNIVERSITY OF PETROLEUM & MINERALS
DHAHRAN, SAUDI ARABIA
In Partial Fulfillment of the Requirements for the Degree of
MASTER OF SCIENCE
In
CIVIL ENGINEERING
June, 1994