What question did this study set out to answer?

The research aims to lower the sintering temperature for AlON ceramics while maintaining high transparency.

February 11, 2026

Highly Transparent AlON Ceramic via Low‐Temperature Pressureless Sintering Enabled by Novel BaO–SiO 2 Co‐Doping

Key Points

The research aims to lower the sintering temperature for AlON ceramics while maintaining high transparency.
Investigated the effects of BaO-SiO2 co-doping on AlON ceramics.
Sintered AlON ceramics at 1800°C without pressure.
Analyzed phase composition, microstructure, and optical properties.
Examined how BaO-SiO2 enhances sintering efficiency.
Achieved high transmittance of approximately 81% in resulting AlON ceramics.
Successfully sintered at a reduced temperature of 1800°C.
Demonstrated improved microstructures due to co-doping.
Outlined the mechanisms promoting pressureless sintering.

Abstract

ABSTRACT High‐pressureless sintering temperatures in the industrial fabrication of transparent AlON ceramics result in elevated production costs, highlighting the need to develop novel strategies to lower the sintering temperature. In this study, the AlON ceramics with high transmittance of ∼81% were successfully sintered at a lower temperature of 1800°C by co‐doping with BaO–SiO 2 as novel sintering additives. The effects of BaO–SiO 2 on the phase composition, microstructure, and optical properties of AlON ceramics were systematically investigated, and the underlying mechanism by which the BaO–SiO 2 co‐doping promotes pressureless sintering was elucidated. This work provides a cost‐effective and energy‐efficient approach for producing highly transparent AlON ceramics.

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Highly Transparent AlON Ceramic via Low‐Temperature Pressureless Sintering Enabled by Novel BaO–SiO 2 Co‐Doping

Key Points

Abstract

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