Showing papers by "Kenneth J. D. MacKenzie published in 1992"

Carbothermal synthesis of titanium nitride

Abstract: The growth curves for TiN formed from four anatases and two rutiles by carbothermal reduction in nitrogen at 1090–1230 °C were analysed in terms of several different mathematical models. The results for all samples over the complete temperature range are best described by first-order kinetics. Arrhenius plots show evidence of two lines intersecting at about 1100 °C. Above this temperature, the activation enthalpies for the anatases and rutiles fall in the ranges 278–392 and 263–264 kJ mol−1 respectively, and the activation entropies are all of negative sign. Below 1100 °C, the activation enthalpies are about 714–971 kJ mol−1, and the activation entropies are all of positive sign. Comparison of the amounts of TiN formed at long reaction times with thermodynamic calculations of the equilibrium phase composition at each temperature suggests that the reactant powder bed experiences a nitrogen concentration substantially in excess of the stoichiometric requirement; diffusion of the gas phase into the bed therefore appears not to be the rate-limiting step. The first-order kinetics, and their virtual independence of the physical and chemical properties of the reactants probably reflect the complexity of the reaction sequence.

Carbothermal synthesis of titanium nitride: Part I Influence of starting materials

Abstract: Studies of the reactivity of six TiO 2 samples (two rutiles and four anatases) and nine carbon samples towards the formation of TiN by reduction of TiO 2 with carbon in a nitrogen atmosphere at 1150°C show that the reaction is influenced by the chemical and physical properties of both the TiO 2 and the carbon. Although anatases and rutiles behave similarly, their reactivities are adversely affected by the presence of impurities such as those deliberately added as surface coatings in pigment-grade TiO 2 .

Carbothermal synthesis of titanium nitride: Part III Kinetics and mechanism

Abstract: The growth curves for TiN formed from four anatases and two rutiles by carbothermal reduction in nitrogen at 1090-1230°C were analysed in terms of several different mathematical models. The results for all samples over the complete temperature range are best described by first-order kinetics. Arrhenius plots show evidence of two lines intersecting at about 1100°C. Above this temperature, the activation enthalpies for the anatases and rutiles fall in the ranges 278-392 and 263-264 kJ mol -1 respectively, and the activation entropies are all of negative sign.