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Research Article | Open Access

Realizing translucency in aluminosilicate glass at ultralow temperature via cold sintering process

Jie GAOa,Kangjing WANGa,Wei LUOaXiaowei CHENGbYuchi FANa( )Wan JIANGa
State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, Institute of Functional Materials, College of Materials Science and Engineering, Donghua University, Shanghai 201620, China
Department of Chemistry, Fudan University, Shanghai 200438, China

† Jie Gao and Kangjing Wang contributed equally to this work.

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Abstract

Glass with high visible-light transparency is widely considered as the most important optical material, which typically requires a processing temperature higher than 1000 ℃. Here, we report a translucent aluminosilicate glass that can be prepared by cold sintering process (CSP) at merely 300 ℃. After eliminating structural pores in hexagonal faujasite (EMT)-type zeolite by heat treatment, the obtained highly active nanoparticles are consolidated to have nearly full density by adding NaOH solution as liquid aids. However, direct densification of EMT powder cannot remove the structural pores of zeolite completely, leading to an opaque compact after the CSP. It is proved that the chemical reaction between the NaOH- and zeolite-derived powders is highly beneficial to dissolution–precipitation process during sintering, leading to the ultra-low activation energy of 27.13 kJ/mol. Although the addition of 5 M NaOH solution greatly promotes the densification via the reaction with aluminosilicate powder, lower or higher concentration of solvent can deteriorate the transmittance of glass. Additionally, the CSP-prepared glass exhibits a Vickers hardness of 4.3 GPa, reaching 60% of the reported value for spark plasma sintering (SPS)-prepared sample.

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Journal of Advanced Ceramics
Pages 1714-1724

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Cite this article:
GAO J, WANG K, LUO W, et al. Realizing translucency in aluminosilicate glass at ultralow temperature via cold sintering process. Journal of Advanced Ceramics, 2022, 11(11): 1714-1724. https://doi.org/10.1007/s40145-022-0642-y

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Received: 09 April 2022
Revised: 01 August 2022
Accepted: 11 August 2022
Published: 18 October 2022
© The Author(s) 2022.

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