A physically based model for dynamic failure in ductile metals

The strain hardening and damage behaviour of isothermally heat treated 6005A aluminium is investigated in order to link the thermal treatment conditions, microstructure and fracture strain. The need for a plastic flow rule involving a stage IV hardening at large strain was found essential to generat

A new mathematical solution to the problem of water ¯ow through snow is presented and its implementation in a snowmelt model, SNAP, is discussed. An analytical solution for vertical water ¯ow through homogeneous snow is developed and formulae that allow the solution to accommodate time-varying surfa

This article proposes a model for predicting failure time of stressed polyethylene pipe materials that exhibit a failure mode transition from brittle to ductile as stress is increased. The model is based on data obtained using the constant tensile load (CTL) test and takes into account stress-versus

This paper outlines a physically based model developed for prediction of both arid region ¯ash ¯oods and associated transmission loss. It is based on coupling numerical solutions of the St Venant equations and the kinematic wave equation for channel and overland ¯ow routing, respectively, with the R

## Abstract This study was designed to develop a physically based hydrological model to describe the hydrological processes within forested mountainous river basins. The model describes the relationships between hydrological fluxes and catchment characteristics that are influenced by topography and