A three-dimensional dual-mechanism model of pore stability in a sintering alumina structure

In this paper a three-dimensional (3D) conductivity model previously developed for a porous electrode having a simple cubic lattice structure is expanded to include other lattice structure types. The other structures analyzed are the extended simple cubic (XSC), body centered cubic (BCC), and face c

## Abstract Fluid–sediment interactions control river channel forms and processes. Analysis of spatial hydraulic patterns and the resulting boundary shear stress are required to aid understanding of river system behaviour. In this paper, the hydraulic processes active in a natural pool–riffle seque

Articular cartilage exhibits viscoelasticity in response to mechanical loading that is well described using biphasic or poroelastic continuum models. To date, boundary element methods (BEMs) have not been employed in modeling biphasic tissue mechanics. A threedimensional direct poroelastic BEM, form

## Synopsis It is suggested that the three-dimensional structure of globular proteins is partly determined by a framework of strengthened hydrogen bonds that involves both ionic side chains and water molecules in addition to the polypeptide backbone. This conclusion follows from a combination of t

## Abstract Cultured brain capillary endothelial cells grown in a 3‐dimensional collagen gel can form tubular structures after stimulation by angiogenic factors. We found that treatment of such cultures with testicular hyaluronidase led to formation of tubular structures and cell survival. Anion‐ex