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Microwave‐sintered mullite structural ceramics based on low‐grade bauxite applied for fracturing proppants.

Authors :
Li, Xiaogang
Xiong, Junya
Yang, Zhaozhong
Zhu, Jinyi
Li, Weizhe
Source :
Energy Science & Engineering; Aug2024, Vol. 12 Issue 8, p3243-3257, 15p
Publication Year :
2024

Abstract

This study aimed to assess the feasibility of manufacturing fracturing proppants by microwave sintering and using low‐grade bauxite as raw material. The effects of microwave hotspot SiC and sintering additive MnO2 content on the performance of the mullite‐based structural materials were studied, respectively. The optimum sintering condition was determined by single‐factor experiments. The sintering process and mechanism were explored based on the analysis of physicochemical properties, phase transitions, and microstructure. The results showed that (1) mullite ceramic composites could be successfully prepared only with SiC added and with poor interparticle bonding microstructure. (2) With the addition of MnO2 and CaO, the granular‐shaped mullite crystals transformed into rod‐like mullite crystals, forming a net structure. (3) As the input power increased, the overfast sintering rate would reduce proppants' mechanical properties, and it was also necessary to select a reasonable sintering time to avoid overburning. (4) When the mass ratio of MnO2:CaO:SiC:bauxite was 2:1.5:12:84.5 and under the sintering condition of 1000 W, 2 h, the performance (breakage ratio of 8.5% under 28 MPa closed pressure, apparent density of 2.58 g/cm3, turbidity of 52 FTU, and acid solubility of 6.77%) could meet the requirements of the Chinese Petroleum and Gas Industry Standard (SY/T 5108–2014). This study provides a powerful way for reducing the fracturing cost, which not only improves the low‐grade bauxite utilization scale within the ceramic industry, but also expands the application of microwave sintering technology in mullite structural materials for the petroleum and gas industry. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
20500505
Volume :
12
Issue :
8
Database :
Complementary Index
Journal :
Energy Science & Engineering
Publication Type :
Academic Journal
Accession number :
179139871
Full Text :
https://doi.org/10.1002/ese3.1783