Accession Number : ADA314608
Title : Implementation of a Bond Model, Including Dilation, for Reinforced Materials in a Finite Element Analysis.
Descriptive Note : Final rept. Mar 93-Dec 95,
Corporate Author : CALIFORNIA UNIV DAVIS DEPT OF CIVIL ENGINEERING
Personal Author(s) : Mello, Joseph D. ; Herrmann, Leonard R.
PDF Url : ADA314608
Report Date : AUG 1996
Pagination or Media Count : 126
Abstract : The objective of this research was to develop a composite finite element analysis that is capable of including the nonlinear, elastic-plastic response of the bond between reinforcing fibers or bars and matrix material. This bond is very important in determining the behavior of reinforced weak or brittle matrix materials, such as reinforced-concrete or ceramic-matrix composites. A composite element captures the response of a reinforced material without the expense of a discrete model which treats each constituent with different element or material types. This report documents the development, implementation, and verification of the composite element with bond modeling capabilities. The numerical implementation of the plasticity-based bond model during testing reproduced the salient features of the theoretical bond model as a stand-alone unit prior to its implementation in the finite element setting. After the composite finite element was incorporated in a finite element code, analyses of published beam and bond tension tests were conducted. The predicted results compared favorably with the published data, considering the limitations of modeling the behavior of the matrix and the reinforcement as linear elastic. The beam analyses illustrated the ease with which the composite analysis can be applied to practical problems. The bond tension tests clearly demonstrated the element's capacity to model bond behavior.
Descriptors : *FINITE ELEMENT ANALYSIS, *FIBER REINFORCED COMPOSITES, *REINFORCED CONCRETE, *ELASTOPLASTICITY, STRESS STRAIN RELATIONS, MATHEMATICAL MODELS, ALGORITHMS, LOAD DISTRIBUTION, TENSILE STRENGTH, STRESS ANALYSIS, MATRICES(MATHEMATICS), STRUCTURAL ANALYSIS, BEAMS(STRUCTURAL), DEFORMATION, CERAMIC MATRIX COMPOSITES, MATRIX MATERIALS, CHEMICAL BONDS, BRITTLENESS, STRUCTURAL RESPONSE, SHEAR STRESSES, TENSION, PARTIAL DIFFERENTIAL EQUATIONS, NONLINEAR ANALYSIS, MICROMECHANICS, REINFORCEMENT(STRUCTURES).
Subject Categories : Laminates and Composite Materials
Distribution Statement : APPROVED FOR PUBLIC RELEASE