Polymer-Derived Ceramics for Advanced Bearing Applications

## Abstract Fracture damage in trilayers consisting of outer and inner brittle layers bonded to a compliant (polycarbonate) substrate and subjected to concentrated surface loading is analyzed. The principal mode of fracture is radial cracking at the undersurface of the inner (core) layer, even in t

## Abstract Polymer composites are used as facing materials in hydrodynamic bearings for their low friction and ‘compliant’ properties, which play an important role during machinery operation. In journal bearings, this low friction property can be of significant importance during start and stop cyc

New types of materials, hydro#uoride-alumina ceramic composites containing one hydride component, CaH , have been studied for fuel cell applications. Excellent fuel cell performances were achieved for a peak power density of 180 mW cm\ at 300 mA cm\, and a short-circuit current density near 1000 mA

The objective of this study was to develop a biodegradable polymer resin that could be used for the fabrication of an interpenetrating phase composite (IPC) made of porous calcium polyphosphate (CPP) and an organic polymer resin. The resin was synthesized from a polycarbonate-based divinyl oligomer