The preparation and properties of aluminium nitride are reviewed
with special reference to the newer production methods and fabrication
techniques.
Information so far available on the sintering of materials is
summarised. For nitrides the sintering is influenced by additives
or impurities such as oxides formed by partial hydrolysis and oxidation.
Resistance to oxidation is increased by sintering and hot-pressing
the refractories.
The kinetics and products of oxidation of nitrides so far studied
depend mainly on the intrinsic reactivity of the material and available
surface at which oxidation can occur.
In the present research conditions are investigated for preparing
aluminium nitride from ammonium hexafluoroaluminate, The x-ray
characteristics and the thermal stability of a new compound, ^-AlP^ are
established. Attempts to study the kinetics of the commercial methods
of aluminium nitride formation are summarised. The reactivity of aluminium
nitride is examined by correlating changes in phase composition, surface
area, crystallite and aggregates sizes with hydrolysis and oxidation time
and temperature. The kinetics and rates of reaction are influenced by
the crystallite and aggregate sizes of the aluminium nitride , by
differences in type of crystal structure, by the molecular volume of the
oxide products, and by fluoride additives. Ageing and sintering of the
aluminas are additional factors. The activation energy of the oxidation
of aluminium nitride in air is determined as 53 k.cals/mole.
Date of Award | 1970 |
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Original language | English |
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Awarding Institution | |
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THE FORMATION AND REACTIVITY OF ALUMINUM NITRIDE AND RELATED MATERIALS
COLES, N. G. (Author). 1970
Student thesis: PhD