Thermodynamics of the hydrothermal synthesis of xonotlite

Wei Liu; Chaorong Liu; Liangliang Huang; Chang Liu; Juan Jiang

doi:10.1088/2053-1591/ace238

Thermodynamics of the hydrothermal synthesis of xonotlite

Wei Liu, Chaorong Liu, Liangliang Huang, Chang Liu, Juan Jiang

College of Chemical Engineering

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Xonotlite, as a multifunctional inorganic material, has been widely used in the fields of building insulation, friction braking, and bionic composite materials. However, the main method of producing xonotlite, the dynamic hydrothermal method, is regarded as a black box process. Optimization of synthesis conditions can only be achieved through trial-and-error experimentations, and there are inconsistencies in the experimental results reported in the literature. In this work, we established a thermodynamic model of the Ca(OH)₂-SiO₂-H₂O system under hydrothermal conditions, and investigated influencing factors of the xonotlite synthesis. The results show that, the predicted lowest temperature of xonotlite synthesis is approximately 170 °C. Furthermore, an optimum condition to synthesis xonotlite with a purity of 99% is proposed as follows: reaction temperature, 200 °C; Ca/Si ratio, 0.9-1.0; water-solid ratio, no more than 20; pH, 7-8. This new synthesis process has been confirmed by experiments.

Original language	English
Article number	075002
Journal	Materials Research Express
Volume	10
Issue number	7
DOIs	https://doi.org/10.1088/2053-1591/ace238
State	Published - 1 Jul 2023

Keywords

hydrothermal synthesis
phase equilibrium
thermodynamic model
xonotlite

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title = "Thermodynamics of the hydrothermal synthesis of xonotlite",

abstract = "Xonotlite, as a multifunctional inorganic material, has been widely used in the fields of building insulation, friction braking, and bionic composite materials. However, the main method of producing xonotlite, the dynamic hydrothermal method, is regarded as a black box process. Optimization of synthesis conditions can only be achieved through trial-and-error experimentations, and there are inconsistencies in the experimental results reported in the literature. In this work, we established a thermodynamic model of the Ca(OH)2-SiO2-H2O system under hydrothermal conditions, and investigated influencing factors of the xonotlite synthesis. The results show that, the predicted lowest temperature of xonotlite synthesis is approximately 170 °C. Furthermore, an optimum condition to synthesis xonotlite with a purity of 99% is proposed as follows: reaction temperature, 200 °C; Ca/Si ratio, 0.9-1.0; water-solid ratio, no more than 20; pH, 7-8. This new synthesis process has been confirmed by experiments.",

keywords = "hydrothermal synthesis, phase equilibrium, thermodynamic model, xonotlite",

author = "Wei Liu and Chaorong Liu and Liangliang Huang and Chang Liu and Juan Jiang",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s). Published by IOP Publishing Ltd.",

year = "2023",

month = jul,

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doi = "10.1088/2053-1591/ace238",

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T1 - Thermodynamics of the hydrothermal synthesis of xonotlite

AU - Liu, Wei

AU - Liu, Chaorong

AU - Huang, Liangliang

AU - Liu, Chang

AU - Jiang, Juan

PY - 2023/7/1

Y1 - 2023/7/1

N2 - Xonotlite, as a multifunctional inorganic material, has been widely used in the fields of building insulation, friction braking, and bionic composite materials. However, the main method of producing xonotlite, the dynamic hydrothermal method, is regarded as a black box process. Optimization of synthesis conditions can only be achieved through trial-and-error experimentations, and there are inconsistencies in the experimental results reported in the literature. In this work, we established a thermodynamic model of the Ca(OH)2-SiO2-H2O system under hydrothermal conditions, and investigated influencing factors of the xonotlite synthesis. The results show that, the predicted lowest temperature of xonotlite synthesis is approximately 170 °C. Furthermore, an optimum condition to synthesis xonotlite with a purity of 99% is proposed as follows: reaction temperature, 200 °C; Ca/Si ratio, 0.9-1.0; water-solid ratio, no more than 20; pH, 7-8. This new synthesis process has been confirmed by experiments.

AB - Xonotlite, as a multifunctional inorganic material, has been widely used in the fields of building insulation, friction braking, and bionic composite materials. However, the main method of producing xonotlite, the dynamic hydrothermal method, is regarded as a black box process. Optimization of synthesis conditions can only be achieved through trial-and-error experimentations, and there are inconsistencies in the experimental results reported in the literature. In this work, we established a thermodynamic model of the Ca(OH)2-SiO2-H2O system under hydrothermal conditions, and investigated influencing factors of the xonotlite synthesis. The results show that, the predicted lowest temperature of xonotlite synthesis is approximately 170 °C. Furthermore, an optimum condition to synthesis xonotlite with a purity of 99% is proposed as follows: reaction temperature, 200 °C; Ca/Si ratio, 0.9-1.0; water-solid ratio, no more than 20; pH, 7-8. This new synthesis process has been confirmed by experiments.

KW - hydrothermal synthesis

KW - phase equilibrium

KW - thermodynamic model

KW - xonotlite

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U2 - 10.1088/2053-1591/ace238

DO - 10.1088/2053-1591/ace238

M3 - 文章

AN - SCOPUS:85164582053

SN - 2053-1591

VL - 10

JO - Materials Research Express

JF - Materials Research Express

IS - 7

M1 - 075002

ER -

Thermodynamics of the hydrothermal synthesis of xonotlite

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Keywords

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