Arun S. Wagh scite author profile

This is the first of three papers in which the kinetics of formation of chemically bonded phosphate ceramics is discussed. A literature survey indicates that the formation of such ceramics is a three‐step process. First, oxides dissolve in a phosphoric acid or an acid phosphate solution and metal ions are released into the solution. The aquoions formed from these cations then react with phosphate anions and form a gel of metal hydrophosphates. In the last step, the saturated gel crystallizes into a ceramic. In this paper, we have proposed that the dissolution is the controlling step and developed a general dissolution model of the kinetics of formation of these ceramics. As an example, the model is used to discuss the kinetics of formation of magnesium phosphate ceramics in detail. In the second and third papers, the model has been used to develop processes to form ceramics of alumina and iron oxides.

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Chemically Bonded Phosphate Ceramics

Wagh

2004

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Open pore description of mechanical properties of ceramics

1991

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Magnesium potassium phosphate ceramic for 99Tc immobilization

Singh

Mandalika

Parulekar

et al. 2006

Journal of Nuclear Materials

103

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Dependence of ceramic fracture properties on porosity

1993

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Arun S. Wagh

Chemically Bonded Phosphate Ceramics: I, A Dissolution Model of Formation

Chemically Bonded Phosphate Ceramics

Open pore description of mechanical properties of ceramics

Magnesium potassium phosphate ceramic for 99Tc immobilization

Dependence of ceramic fracture properties on porosity

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