Surface and Colloid Chemistry in Advanced Ceramics ProcessingRobert J. Pugh, Lennart Bergstrom Emphasizes the importance of surface and colloid chemistry in the manufacture of high-performance ceramics. Examines processing-property relationships, powderproductionandcharacte6zation,the dispersion properties of powders in liquids, the rheology of concentrated suspensions, and the surface and colloid chemistry aspects of the most widely used forming methods. |
Contents
An Overview | |
The Chemical Synthesis of Ceramic Powders | |
Surface Chemical Characterization of Ceramic Powders | |
Dispersion and Stability of Ceramic Powders in Liquids | |
Rheology of Concentrated Suspensions | |
Other editions - View all
Surface and Colloid Chemistry in Advanced Ceramics Processing Robert J. Pugh,Lennart Bergstrom Limited preview - 1993 |
Surface and Colloid Chemistry in Advanced Ceramics Processing Robert J Pugh,Lennart Bergstrom No preview available - 2019 |
Common terms and phrases
acid added addition adsorbed adsorption agglomerates American amount approach aqueous attraction behavior binder body casting cause ceramic powders Ceramic Society charge Chem chemical chemistry colloidal compact composition concentration constant controlled decrease density dependent described determined developed dispersion distribution drying effect electron electrostatic energy example flocculated flow forces function granules green groups heat important increase influence interaction Interface interparticle ions layer liquid lower lubricant material measurements mechanism metal methods mixing mold molecules nitride obtained occur organic oxide particles phase plastic polymer potential precipitation prepared pressing pressure processing produced properties range reaction recent reduce relative removed repulsion Science shear showed shown silicon sintering slip solid solution solvent species spray stability steric strength stress structure studies surface surface charge suspension techniques temperature theory types usually values viscosity volume fraction York