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Variability response functions for apparent material properties

TitleVariability response functions for apparent material properties
Publication TypeJournal Article
Year of Publication2016
AuthorsArwade SR, Deodatis G, Teferra K
JournalProbabilistic Engineering Mechanics
Volume44
IssueSpecial Issue Based on Papers Presented at the 7th International Conference on Computational Stochastic Mechanics (CSM7)
Start Page28
Pagination28-34
Date Published04/2016
KeywordsApparent properties, Effective properties, Finite element analysis, Homogenization, Probabilistic mechanics, Random heterogeneous materials, Variability response function
Abstract

The computation of apparent material properties for a random heterogeneous material requires the assumption of a solution field on a finite domain over which the apparent properties are to be computed. In this paper the assumed solution field is taken to be that defined by the shape functions that underpin the finite element method and it is shown that the variance of the apparent properties calculated using the shape functions to define the solution field can be expressed in terms of a variability response function (VRF) that is independent of the marginal distribution and spectral density function of the underlying random heterogeneous material property field. The variance of apparent material properties can be an important consideration in problems where the domain over which the apparent properties are computed is smaller than the representative volume element and the approach introduced here provides an efficient means of calculating that variance and performing sensitivity studies with respect to the characteristics of the material property field. The approach is illustrated using examples involving heat transfer problems and finite elements with linear and nonlinear shape functions and in one and two dimensions. Features of the VRF are described, including dependency on shape and scale of the finite element and the order of the shape functions

DOI10.1016/j.probengmech.2015.10.010