Phase separation and properties of glasses of the system MgO–CaO–Fe 2O3–Al2O3–В2O3–SiO2

Q4 Chemistry
Y. G. Pavlyukevich, L. F. Papko, M. Hundzilovich, P. S. Larionov, A. Uvarov
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引用次数: 0

Abstract

The synthesis and study of model glasses of the MgO–CaO–Fe2O3–Al2O3–SiO2 system, which is the base for obtaining continuous basalt fiber, has been carried out. Systematized data on the effect of components on the glasses structure and the sequence of phase separation processes occurring during their heat treatment have been obtained. It is shown that during phase separation, crystalline phases are separated in the following sequence: magnetite–pyroxene–plagioclase with a predominance of the anorthite component. Glasses of the MgO–CaO–Fe2O3–Al2O3–SiO2 system were modified by adding B2O3, and the active role of this component in the processes of glass formation and crystallization was shown. The ratio of glass-forming and modifying components of model glasses is established, at which an increase in the strength of glasses from 110 to 180 MPa is achieved. Based on the study of the technological properties of model glasses and strength characteristics, components were determined for modifying basalt glasses in order to increase the strength of the fiber.
mgo - cao - fe2o3 - al2o3体系玻璃的相分离与性能-В2O3-SiO2
本文进行了MgO-CaO-Fe2O3-Al2O3-SiO2体系模型玻璃的合成与研究,该体系是制备连续玄武岩纤维的基础。系统地研究了各组分对玻璃结构的影响以及在热处理过程中发生的相分离过程的顺序。结果表明,在分相过程中,晶相的分离顺序为磁铁矿-辉石-斜长石,其中钙长石成分占主导地位。通过添加B2O3对MgO-CaO-Fe2O3-Al2O3-SiO2体系玻璃进行了改性,表明了B2O3在玻璃形成和结晶过程中的积极作用。确定了模型玻璃成形与改性组分的配比,使模型玻璃的强度从110 MPa提高到180 MPa。在研究模型玻璃工艺性能和强度特性的基础上,确定了玄武岩玻璃的改性组分,以提高纤维的强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
0.30
自引率
0.00%
发文量
38
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