Multi‐scale modeling of heterogeneous structures with inelastic constitutive behaviour: Part I – physical and mathematical aspects
Abstract
Purpose
To provide a computational strategy for highly accurate analyses of non‐linear inelastic behaviour for heterogeneous structures in civil and mechanical engineering applications
Design/methodology/approach
Adapts recent developments on mathematical formulations of multi‐scale problems to the recently developed component technology based on C++ generic templates programming.
Findings
Provides the understanding how theoretical hypotheses, concerning essentially the multi‐scale interface conditions, affect the computational precision of the strategy.
Practical implications
The present approach allows a very precise modelling of multi‐scale aspects in structural mechanics problems and can play an essential tool in searching for an optimal structural design.
Originality/value
Provides all the ingredients for constructing an efficient multi‐scale computational framework, from the theoretical formulation to the implementation for parallel computing. It is addressed to researchers and engineers analysing composite structures under extreme loading.
Keywords
Citation
Markovic, D., Niekamp, R., Ibrahimbegović, A., Matthies, H.G. and Taylor, R.L. (2005), "Multi‐scale modeling of heterogeneous structures with inelastic constitutive behaviour: Part I – physical and mathematical aspects", Engineering Computations, Vol. 22 No. 5/6, pp. 664-683. https://doi.org/10.1108/02644400510603050
Publisher
:Emerald Group Publishing Limited
Copyright © 2005, Emerald Group Publishing Limited