The formation and oxidation of transition metal nitrides and carbides is
reviewed and the crystal structures and types of bonding are discussed. Types
of nitrides and carbides are categorized in terms of physical and chemical
properties and type of bonding. The principles of sintering are summarised.
Tlie theory and applications of thermal analytical techniques are reviewed.
Surface area determination and estimation of average crystallite size by the
BET method utilizing the adsorption of nitrogen gas at -196 X are explained
along with the application of x-ray dififractometry ajid scanning electron
microscopy to work in this area.
In this present research selected transition metal nitrides and carbides have
been oxidised in air and carbon dioxide. Activation energies have been
determined for these reactions from isothennal oxidations utilizing the
Arrhenius equation and from oxidations at different heating rates utilizing the
Kissinger equation. Kinetic schemes for the isothermal oxidations have been
proposed based on two models of the reactions, that is half order kinetics in
which the rate of reaction is determined by the diffijsion of oxidising gas
througli the oxide product and two-thirds order kinetics in which the reaction
takes place at the surface of a spherical particle of diminishing size as the
reaction pioceeds. Surface area measurements and electron microscopy have
been utilized to study the ability of the product formed during the oxidations to
sinter. X-ray diffractometry has been used to identify the crystal phases
present in the initial nitride or carbide and in the oxidation products.
The activation energies of the carbides were found to be lower than that found
for the respective nitrides. At low temperatures the carbides oxidised more
extensively than the respective nitrides, but at high temperatures the situation
was reversed. This is explained in terms of the difference in the preexponential
term of the Arrhenius equation. Tlie kinetics were found to be
dependent on whether the oxide produced was structurally compatible with the
remaining reactant and whether the oxide produced was able to sinter at the
temperature used in the experiment.
Date of Award | 1995 |
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Original language | English |
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Awarding Institution | |
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THE REACTIVITY OF SOME TRANSITION METAL NITRIDES AND CARBIDES
Clark, J. (Author). 1995
Student thesis: PhD