The influence of magnesium compounds on the properties of silicon nitride ceramics-Reference-Cited by-同舟云学术

The influence of magnesium compounds on the properties of silicon nitride ceramics

Published:2024-01-05 Issue: Volume: Page:
ISSN:1546-542X
Container-title:International Journal of Applied Ceramic Technology
language:en
Short-container-title:Int J Applied Ceramic Tech

Author:

Zhuang Yinghua¹^ORCID,Sun Feng²,Zhou Lijuan¹^ORCID,Jiang Changxi³,Wang Jianjun²,Li Shuang⁴,Liao Shengjun⁵⁶

Affiliation:

1. School of Materials Science and Engineering Shandong University of Technology Zibo China

2. Sinoma Advanced Nitride Ceramics Co., LTD Zibo China

3. Longkou Public Employment and Talent Service Center Yantai China

4. School of Resources and Environmental Engineering Shandong University of Technology Zibo China

5. State Key Laboratory of High Performance Ceramics and Superfine Microstructure Shanghai Institute of Ceramics Chinese Academy of Sciences Shanghai China

6. University of Chinese Academy of Sciences Beijing China

Abstract

AbstractSilicon nitride (Si3N4) ceramics using four compound sintering aids Er2O3–MgO, Er2O3–MgF3, Er2O3–Mg2Si, and Er2O3–Mg3N2. The effects of binary sintering aid types and temperatures on the microstructure, mechanical properties, and thermal conductivity of Si3N4 ceramics were investigated. The depolymerization effect of fluorine atoms introduced by MgF2 sintering additives on the silicate melt structure reduced the viscosity of the liquid phase. However, the existence of volatile phase leads to low density of Si3N4 ceramics. While the additional Si and N atoms increase the concentration of solute atoms, which was conducive to sintering densification of Si3N4 ceramics. Although Mg2Si and Mg3N2 sintering aids produced higher viscosity liquid phase compared with MgF2, denser Si3N4 ceramics were obtained at 1900°C. The Si3N4 ceramics doped with 5 mol% Er2O3 and 2 mol% Mg3N2 at 1900°C showed the excellent properties: including the highest Vickers hardness (16.8 GPa), flexural strength (912 MPa), and fracture toughness (8.1 MPa m1/2), as well as the desirable thermal conductivity (83 W/(m K)).

Publisher

Wiley

Subject

Materials Chemistry,Marketing,Condensed Matter Physics,Ceramics and Composites

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