Using extraction and sorption processes to obtain nanosized powders of calcium silicates and functional materials on their basis

L. V. Akat’eva; V. K. Ivanov; S. A. Kozyukhin; V. D. Gladun; A. E. Baranchikov; V. I. Zhilov; A. I. Khol’kin

doi:10.1134/S0040579516040023

Using extraction and sorption processes to obtain nanosized powders of calcium silicates and functional materials on their basis

Authors: Akat’eva L.V.¹, Ivanov V.K.¹, Kozyukhin S.A.¹, Gladun V.D.², Baranchikov A.E.¹, Zhilov V.I.¹, Khol’kin A.I.¹
Affiliations:
1. Kurnakov Institute of General and Inorganic Chemistry
2. Egor’ev Technological Institute (Branch) of MSTU Stankin
Issue: Vol 50, No 4 (2016)
Pages: 490-497
Section: Selected Articles from the Journal Khimicheskaya Tekhnologiya
URL: https://bakhtiniada.ru/0040-5795/article/view/170735
DOI: https://doi.org/10.1134/S0040579516040023
ID: 170735

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Abstract

The review presents summary data on extracting agents and the application of sorption processes during the cycle of studies on the joint processing of calcium and silicon-containing raw materials on the production of calcium silicates and composite materials on their basis. It is found that, in processes of the production of synthetic calcium silicates from various types of calcium and silicon-containing raw materials, ionic and nonionic surfactants, including extractants, serve as structuring additives that hinder crystal growth and impede their agglomeration. The sorption properties of amorphous and crystalline nanopowders of calcium silicates and hydrosilicates synthesized from water-soluble materials are studied with respect to cations of base and rare metals. It has been found that the studied samples have high sorption capacity for cations of Eu3+, Pr³⁺, Tb³⁺, Er³⁺ and may be used as the basis for producing functional composite materials. The efficiency of applying the extraction-pyrolytic method has been shown to provide homogeneity and predetermined composition of the desired products, for the production of ceramic pigments and luminescent materials based on calcium silicates.

Keywords

synthetic calcium silicates, extractants, structuring additives, salts of quaternary ammonium bases, water-soluble raw materials, nanopowders, sorption, extraction-pyrolytic method, binary dyes, organic-mineral pigments, composite ceramic pigments, hybrid luminophores

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Using extraction and sorption processes to obtain nanosized powders of calcium silicates and functional materials on their basis

Full Text

Abstract

Keywords

About the authors

L. V. Akat’eva

V. K. Ivanov

S. A. Kozyukhin

V. D. Gladun

A. E. Baranchikov

V. I. Zhilov

A. I. Khol’kin

Supplementary files