Article - 31 Jul 2006
Transient liquid phase (TLP) diffusion bonding has the potential to join oxide dispersion strengthened superalloys (ODS) with minimum disruption to the parent alloy microstructure. In this study, TLP...
Article - 20 Jun 2006
This study aimed to characterize the nanostructures in individual calcium phosphate (CP) splats deposited by thermal spray processes.
Article - 8 Jun 2006
Diffusion of cations in high-temperature oxidation of ceramic matrix composites dispersed with metallic particles is discussed in this paper. Inward diffusion of oxygen passing though oxidized zone...
Article - 18 May 2006
Pulsed Electric Current Sintering (PECS) is a sintering technique that allows fully dense materials to be produced at high heat rates in a short period of time. PECS also shows promise in being able...
Article - 2 Feb 2006
Surface area helps to determine such things as how solids burn, dissolve, and react with other materials.
Article - 11 Jan 2006
Research on processing â“i3N4 ceramics and their thermal conductivity are reviewed. Thermal conductivities are greatly affected by processing parameters such as purity of raw powders, type and amount...
Article - 20 Sep 2005
Self-crack-healing is proposed as a new method for improvement in reliability of structural ceramics. Mullite/SiC particle/SiC whisker multi-composites were developed for improvement in fracture...
Article - 19 Sep 2005
TiO2 coatings were deposited with different spraying power and distance by atmospheric plasma spraying (APS). The influence of the two parameters on phase content, deposition efficiency,...
Article - 17 May 2005
Despite the high durability and corrosion resistance of aluminium and aluminium alloys, some simple steps should be employed when handling and cleaning aluminium to avoid staining and damage as some...
Article - 6 Jan 2004
Hot Pressed Silicon Carbide is a high density, high strength material which has been used in refractory applications. Chemical, electrical, mechanical, physical and thermal properties are provided.