Materials Selection for a Finite Life Time

## Abstract Finding an application for a given (not necessarily new) material is an elusive problem. Methods for material selection to fill a given application are now well developed. But the inverse problem – that of finding applications for a new material – has no such established methodology. Th

A finite element implementation is reported of the Fleck-Hutchinson phenomenological strain gradient theory. This theory fits within the Toupin-Mindlin framework and deals with first-order strain gradients and the associated work-conjugate higher-order stresses. In conventional displacement-based ap

A hybrid "nite element method is proposed for the thermo-mechanical analysis of porous materials with pore pressure. Arbitrary n-sided polygonal elements based on the Hellinger}Reissner principle are used to mesh the heterogeneous domain. The validity of the proposed method is veri"ed by a simple an

We present an algorithmic procedure for the ÿnite element solution of structural problems for no-tension materials. The approach is based upon a suitable modiÿcation of the tangent strategy which is shown to be computationally superior to conventional procedures for non-linear material models, namel

In this paper, we consider the problem of finite-time H -optimal control of linear, singularly perturbed, discrete-time systems. The problem is addressed from the game theoretic approach. This leads to a singularly perturbed, matrix Riccati difference equation, the solution of which is given in term