β Scribed by M.J. Needs; K. Board; C. Taylor
No coin nor oath required. For personal study only.
π SIMILAR VOLUMES
## Abstract The FEM analysis of hyper elastic, elastomeric materials has been formulated and implemented for various material models (strain energy functions) over the years. More recently, the analysis of elastomeric materials has been attempted in the boundary element method. This has been achiev
## Abstract This study presents a novel application of the scaled boundary finite element method (SBFEM) to model dynamic crack propagation problems. Accurate dynamic stress intensity factors are extracted directly from the semiβanalytical solutions of SBFEM. They are then used in the dynamic fract
Biofilm processes are of interest to researchers in a variety of fields including bioremediation, oil recovery, wastewater treatment, ture, whether it is a heart valve, a flagellum, or an aggregate medicine, and dentistry. In this paper we describe how this complex, of cells, as a region in the flui
## Abstract Computer modelling is widely used in the design of mass analysers to evaluate proposed designs and determine the effects of manufacturing imperfections. For quadrupole mass filters and ion traps, the models require accurate values of the electric field throughout the regions of the anal
In this paper an e$cient three-dimensional hybrid thermal model for the pressure die casting process is described. The Finite Element Method (FEM) is used for modelling heat transfer in the casting, and the Boundary Element Method (BEM) for the die. The FEM can e$ciently account for the non-linearit