A novel method to fabricate porous single phase O’-sialon ceramic and improve its mechanical property

Ma, Haiqiang; Bao, Chonggao

doi:10.2298/sos2103387m

Cited by 6 publications

(1 citation statement)

References 17 publications

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“…Based on conducting properties one of the most promising materials for such purpose is the glassceramics prepared from Li 2 O-Al 2 O 3 -GeO 2 -P 2 O 5 glassy system. These materials can be obtained by the classic powder sintering route, sol-gel method, and common glass-ceramic processes [3,4].…”

Section: Introductionmentioning

confidence: 99%

The analysis of the nucleation process of the lithium germanium phosphate glass

et al. 2022

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The nucleation process of lithium germanium-phosphate glass was studied to determine the temperature range of nucleation and the temperature of the maximum nucleation rate. The differential thermal analysis (DTA), and scanning electron microscope (SEM) were used to reveal the nonisothermal and isothermal process of nucleation, respectively. The crystallization process occurred at a high homogeneous nucleation rate and the spherulitic crystal growth morphology. Nanostructured samples were obtained.

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Section: Introductionmentioning

confidence: 99%

The analysis of the nucleation process of the lithium germanium phosphate glass

et al. 2022

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Preparation and characterization of porous reaction bonded silicon nitride by paraffin emulsified suspension

Wen,

Yanjun li,

et al. 2024

Ceramics International

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Synergistic regulation of color and mechanical properties of silicon nitride ceramics via engineering hollow structures of Eu-enriched secondary phases

Liu,

Hu,

et al. 2024

Microstructures

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Si3N4 ceramics, renowned for their superior mechanical properties, are widely regarded as the most promising materials for electronic device casing. This is particularly evident in the context of 5th generation mobile networks, where they outperform both glass and zirconia. However, achieving a synergetic balance between color and mechanical properties remains a significant challenge. In this study, we propose the use of phase separation in liquid phases, supported by a novel Eu2O3-YAG-MgO system, to engineer hollow structures. This approach aims to achieve high-toughness colored Si3N4 ceramics. The resulting hollow structure not only acts as a reinforcing phase in response to the stress field caused by lattice mismatch but also serves as one of the dominant chromophores. This is achieved through the 5d→4f transition of Eu2+ coupled with the 5D0→7FJ transition of Eu3+ under photon excitation. These findings offer new insights into the development of high-performance Si3N4 ceramics with well-controlled color.

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A novel method to fabricate porous single phase O’-sialon ceramic and improve its mechanical property

Cited by 6 publications

References 17 publications

The analysis of the nucleation process of the lithium germanium phosphate glass

The analysis of the nucleation process of the lithium germanium phosphate glass

Preparation and characterization of porous reaction bonded silicon nitride by paraffin emulsified suspension

Synergistic regulation of color and mechanical properties of silicon nitride ceramics via engineering hollow structures of Eu-enriched secondary phases

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