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High-temperature synthesis of materials

Borissov, Anatoly A., L. De Luca, and Aleksandr Grigorevich Merzhanov. Self-Propagating High-Temperature Synthesis of Materials. Combustion Science and Technology Series, vol. 5. New York Taylor Sc Francis, 2002. [Pg.291]

Borisov, A. A., De Luca, L., Merzhanov, A. (2002), Self-Propagating High-Temperature Synthesis of Materials Combustion Science and Technology, Taylor Francis, New York. [Pg.921]

Borisov AA, Luca DL, Merzhanov AG, editors. Self-propagating high temperature synthesis of materials. New York, NY Taylor Francis 2002, p. 337. [Pg.534]

Borisov, A.A., DeLuca, L. and Merzhanov, A.G. (2002) Sdf-Propagatirtg High Temperature Synthesis of Materials,... [Pg.256]

High-Temperature Synthesis of Materials Glycothermal Synthesis of Alpha Aluminum Oxide... [Pg.120]

Hexachloroethane does not occur naturally in the environment. It is made by adding chlorine to tetrachloroethylene. Hexachloroethane is no longer made in the United States, but it is formed as a byproduct in the production of some chemicals. For example, it is a by-product in the high temperature synthesis of tetrachloroethylene from carbon tetrachloride. Some hexachloroethane can be formed by incinerators when materials containing chlorinated hydrocarbons are burned. Hexachloroethane itself does not easily catch fire. Some hexachloroethane can also be formed when chlorine reacts with carbon compounds in drinking water. [Pg.20]

Very recently, Solozhenko [540] reported the high-pressure-high-temperature synthesis of cubic BC2N with in situ control of the reaction by x-ray diffraction measurement. The first high-density product has been obtained in a laser-heated diamond anvil cell (DAC). The starting material was g-BC N, prepared... [Pg.216]

Postnikov, A. Yu., Levakov, E. V., Gavrilov, P. I., Glagovsky, E. V. Kuprin, A. V. 2001. Self-sustaining high temperature synthesis of zirco-nolite-based materials for radioactive waste immobilization. Physics and Chemistry of Materials Treatment, 5, 58-63 (in Russian). [Pg.60]

Kumar, S., Self-propagating high-temperature synthesis of ceramic materials. Ph.D. Dissertation, State University of New York, Buffalo (1988). [Pg.216]

Shteinberg, A. S., Scherbakov, V. A, Martynov, V. V., Mukhoyan, M. Z., and Merzhanov, A. G., Self-propagating high-temperature synthesis of high-porosity materials under zero-g conditions. Phys. Doki, 36,385 (1991). [Pg.224]

Tabachenko, A. N., and Kryuchkova, G. G., Self-propagating high-temperature synthesis of composite materials. The melting compounds (TiC, TiBa)—intermetallides, their structure and properties. J. Eng. Phys. Thermophys., 65, 1026 (1993). [Pg.224]

Zavitsanos, P. D., Gebhardt, J. J., and Gatti, A., The use of self-propagating high-temperature synthesis of high-density titanium diboride. In Combustion and Plasma Synthesis of High-Temperature Materials (Z. A. Munir and J. B. Holt, eds.). VCH Publishers, New York, 1990, p. 170. [Pg.226]

Self-Propagating High-Temperature Synthesis of Hard Materials... [Pg.322]

See other pages where High-temperature synthesis of materials is mentioned: [Pg.830]    [Pg.45]    [Pg.1]    [Pg.830]    [Pg.45]    [Pg.1]    [Pg.309]    [Pg.569]    [Pg.217]    [Pg.309]    [Pg.1791]    [Pg.291]    [Pg.597]    [Pg.1790]    [Pg.341]   


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High synthesis

High temperature synthesis

Materials synthesis

Synthesis of materials

Temperature of synthesis

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