Osamu Hayakawa scite author profile

In the carbothermal reduction-nitridation method of producing silicon nitride powder, the effects of addition of silicon nitride seeds on the particle size and ƒ¿-content in the resulting silicon nitride pow der were investigated. The ratio of carbon to silica was determined to be 2.2, which is somewhat higher than the stoichiometric ratio. The ratio was fixed in the subsequent experiments. Adding a small amount of seeds caused a steep increase of ƒ¿-type in the resulting silicon nitride powder regard less of the types of seeds. However, as the amount of seeds increased, the powder began to reflect the original crystal form. The seed prepared through a pulverizing process yielded fine silicon nitride parti cles of 0.5 to 0.6ƒÊm, equal to the mean diameter of the seed. It is inferred that this was due to the exis tence of a large numbers of very fine particles in the seed powder. The seed made by the silicon-imide decomposition method produced relatively large particles because of the lack of very fine particles, the size being twice of the mean diameter of the seed. The relation between the numbers of seeds and resultant particle size (D) could be described by the equation D=k(1/N)1/3, where Nis the numbers of seeds and k is a constant.[

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Osamu Hayakawa

Effect of particle shape on the particle size distribution measured with commercial equipment

Experimental analysis of sample preparation conditions for particle size measurement

Ball Milling Conditions of a Very Small Amount of Large Particles in Silicon Nitride Powder

Estimation of the Optimum Refractive Index by Laser Diffraction and Scattering Method. In the Raw Material of Fine Ceramics.

Effect of Silicon Nitride Seeds Addition on the Particle Size and the Crystal Form of Resulting Powder in Carbothermal Reduction-Nitridation of Silica

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