Finite element analysis of axisymmetric free jet impingement

## Abstract This paper presents isoparametric finite element formulation for special classes of elements referred to as ‘transition elements’ for axisymmetric stress analysis. The transition elements are necessary for applications requiring the use of both axisymmetric solids and axisymmetric shell

## Abstract The finite element method was used to solve the problem of flow to a partially penetrating strainer well in a leaky confined aquifer under steady and unsteady conditions. Predictions of the model were compared with reported pumping test data. A good agreement was obtained between them.

A series of open-type elements which are compatible with axisymmetric thin shell elements have been derived. These elements allow the effects of intermediate openings and discrete support systems for rotational shells to be realistically modelled in the dynamic regime. Also, consistent load vectors

## Abstract The finite element method used to study stress generated in a maxillary second premolar as a result of occlusal forces. This mathematical technique has been applied extensively in structural engineering and structural mechanics. It is well suited to the analysis of stress in teeth and d

This work presents an assumed hybrid displacement finite element model to deal with an axisymmetric cracked solid subjected to static as well as dynamic torsional loadings. A ring type hybrid singular crack element embedded with correct Williams' singularities is devised to analyze the region near t