Behavior of Calcium Compounds under Hydrothermal Conditions during Alkaline Leaching of Aluminosilicates with the Synthesis of Fillers for Composites

IF 3 Q2 MATERIALS SCIENCE, COMPOSITES

Journal of Composites Science Pub Date : 2023-12-05 DOI:10.3390/jcs7120508

R. Abdulvaliyev, N. Akhmadiyeva, S. Gladyshev, Nazira Samenova, Olga Kolesnikova, Olimpiada Mankesheva

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Abstract

Calcium oxide plays an important role in alumina production by binding SiO2 from aluminosilicate raw materials (bauxite, nepheline, kaolinite, etc.) in aluminum-free compounds. The efficiency of the hydrochemical technology depends on the activities of calcium oxide or its compounds introduced into the alkaline aluminosilicate slurry. In this paper, we considered the effects of different calcium compounds (calcium carbonate CaCO3, gypsum CaSO4·H2O, calcium oxide CaO and calcium hydroxide Ca(OH)2), introduced during the hydrothermal stripping of aluminosilicates with alkaline solutions, on the degree of aluminum oxide extraction, with the subsequent production of fillers for composites. Ca(OH)2 was obtained by the CaO quenching method. Extraction of Al2O3 in an alkaline solution was only possible with Ca(OH)2, and the degree of extraction depended on the conditions used for CaO quenching. The effects of temperature and of the duration of CaO quenching on particle size were investigated. In potassium solution, the best results for Al2O3 extraction were obtained using CaSO4·H2O gypsum. The obtained solutions were processed using the crystallization method.

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铝硅酸盐碱性浸出过程中钙化合物在水热条件下的行为与复合材料填料的合成

氧化钙通过将铝硅酸盐原料(铝土矿、霞石、高岭石等)中的SiO2结合在无铝化合物中，在氧化铝生产中起着重要作用。水化学技术的效率取决于在碱性硅酸铝浆料中引入氧化钙或其化合物的活性。本文研究了碱溶液水热提铝硅酸盐过程中引入的不同钙化合物(碳酸钙CaCO3、石膏CaSO4·H2O、氧化钙CaO和氢氧化钙Ca(OH)2)对氧化铝提取率的影响，并对复合材料填料的生产进行了研究。采用CaO淬法制得Ca(OH)2。在碱性溶液中，只有Ca(OH)2才能萃取Al2O3，萃取程度取决于CaO淬火的条件。研究了CaO淬火温度和淬火时间对颗粒尺寸的影响。在钾溶液中，用CaSO4·H2O石膏萃取Al2O3效果最好。所得溶液用结晶法处理。

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