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BENEFICIATION TECHNOLOGY
ArticleName Studies of cryptocrystalline minerals intergrowth character variations in zeolitic rocks and their dressability with mechanical activation
ArticleAuthor Yusupov Т. S., Kazantseva L. K., Shumskaya L. G., Lygina T. Z., Tsyplakov D. S.
ArticleAuthorData

Institute of Geology and Mineralogy, Siberian Branch, RAS (Russia):

Yusupov Т. S., Leading Researcher, Doctor of Engineering Sciences, yusupov@igm.nsc.ru

Kazantseva L. K., Leading Researcher, Doctor of Engineering, kazantseva@igm.nsc.ru

Shumskaya L. G., Leading Engineer, shum@igm.nsc.ru

 

The Central Research Institute of Geology of Industrial Minerals (Russia):

Lygina T. Z., Deputy Director, Doctor of Geology and Mineralogy, Professor, lygina@geolnerud.net
Tsyplakov D. S., Junior Researcher

Abstract

Cryptocrystalline zeolitic rocks fractionation and concentration processes are studied, using separation in organic liquid of varying density, concentrating table and flotation. A possibility to obtain products with varying content of zeolite, opal-christobalite-tridymite phase and calcite-quartz association has been established. It is shown, that opal-christobalite-tridymite phase is a most suitable product for manufacture of cellular constructional materials like foamglass. Raw material mechanical activation possibilities are studied as a pore formation intensification method. In addition to increase in dispersion and reactive capability of zeolitic rocks components in mechanical processing under the conditions of centrifugal planetary mill, liberation of intergrowths in cryptocrystalline formations has been established, having a favorable effect on pore formation process in production of materials with improved thermal-insulating properties.

keywords Zeolite, opal, christobalite, tridymite, separation, concentration, mechanical activation, pore formation, density
References

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