Sol-Gel Route to Barium Aluminosilicate (BAS) Glass-Ceramics

Bo Zhang; Li Tong Zhang; Wan Cheng Zhou

Sol-Gel Route to Barium Aluminosilicate (BAS) Glass-Ceramics

Bo Zhang, Li Tong Zhang, Wan Cheng Zhou

School of Materials Sience and Engineering

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

1 Scopus citations

Abstract

A new idea was proposed for solving the problems caused by different hydrolysis rate of alkoxides in Sol-Gel processes. The new idea is that the highest-hydrolysis-rate alkoxide is supposed to be hydrolysized slowly and homogeneously at first under a controllable condition, and meanwhile, its hydrolysis intermediates polymerize with lower-hydrolysis-rate alkoxides. Based on this new idea, a Sol-Gel process with lower cost and a simple procedure was developed for synthesizing BAS glass-ceramics. XRD, DTA and Laser Raman Spectrum were used to detect the molecular structures and crystallization behaviors of a gel and a gel-derived glass. The as-prepared gel is amorphous with (Si, Al)-O network structures. The temperature of maximum-nucleation-rate of the amorphous is about 938°C, and the temperature of maximum-crystal-growth is about 1164°C.

Original language	English
Pages (from-to)	12
Number of pages	1
Journal	Wuji Cailiao Xuebao/Journal of Inorganic Materials
Volume	13
Issue number	1
State	Published - 1998

Keywords

Crystallization
Molecular structure
Sol-Gel process, BAS glass-ceramic

Cite this

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abstract = "A new idea was proposed for solving the problems caused by different hydrolysis rate of alkoxides in Sol-Gel processes. The new idea is that the highest-hydrolysis-rate alkoxide is supposed to be hydrolysized slowly and homogeneously at first under a controllable condition, and meanwhile, its hydrolysis intermediates polymerize with lower-hydrolysis-rate alkoxides. Based on this new idea, a Sol-Gel process with lower cost and a simple procedure was developed for synthesizing BAS glass-ceramics. XRD, DTA and Laser Raman Spectrum were used to detect the molecular structures and crystallization behaviors of a gel and a gel-derived glass. The as-prepared gel is amorphous with (Si, Al)-O network structures. The temperature of maximum-nucleation-rate of the amorphous is about 938°C, and the temperature of maximum-crystal-growth is about 1164°C.",

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T1 - Sol-Gel Route to Barium Aluminosilicate (BAS) Glass-Ceramics

AU - Zhang, Bo

AU - Zhang, Li Tong

AU - Zhou, Wan Cheng

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N2 - A new idea was proposed for solving the problems caused by different hydrolysis rate of alkoxides in Sol-Gel processes. The new idea is that the highest-hydrolysis-rate alkoxide is supposed to be hydrolysized slowly and homogeneously at first under a controllable condition, and meanwhile, its hydrolysis intermediates polymerize with lower-hydrolysis-rate alkoxides. Based on this new idea, a Sol-Gel process with lower cost and a simple procedure was developed for synthesizing BAS glass-ceramics. XRD, DTA and Laser Raman Spectrum were used to detect the molecular structures and crystallization behaviors of a gel and a gel-derived glass. The as-prepared gel is amorphous with (Si, Al)-O network structures. The temperature of maximum-nucleation-rate of the amorphous is about 938°C, and the temperature of maximum-crystal-growth is about 1164°C.

AB - A new idea was proposed for solving the problems caused by different hydrolysis rate of alkoxides in Sol-Gel processes. The new idea is that the highest-hydrolysis-rate alkoxide is supposed to be hydrolysized slowly and homogeneously at first under a controllable condition, and meanwhile, its hydrolysis intermediates polymerize with lower-hydrolysis-rate alkoxides. Based on this new idea, a Sol-Gel process with lower cost and a simple procedure was developed for synthesizing BAS glass-ceramics. XRD, DTA and Laser Raman Spectrum were used to detect the molecular structures and crystallization behaviors of a gel and a gel-derived glass. The as-prepared gel is amorphous with (Si, Al)-O network structures. The temperature of maximum-nucleation-rate of the amorphous is about 938°C, and the temperature of maximum-crystal-growth is about 1164°C.

KW - Crystallization

KW - Molecular structure

KW - Sol-Gel process, BAS glass-ceramic

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JO - Wuji Cailiao Xuebao/Journal of Inorganic Materials

JF - Wuji Cailiao Xuebao/Journal of Inorganic Materials

IS - 1

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Sol-Gel Route to Barium Aluminosilicate (BAS) Glass-Ceramics

Abstract

Keywords

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