K. Wang scite author profile

K. Wang

2Publications

1Citation Statement Received

15Citation Statements Given

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Taiyuan University of Science and Technology

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Preparation and optimization of a low cost, high breakage resistance ceramic proppant special for the coal‐bed methane

Qin

Zhou

Wang

et al. 2020

Materialwissenschaft Werkst

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A kind of low cost, high breakage resistance ceramic proppant special for exploitation of the coal-bed methane is successfully produced. The producing conditions are optimized through orthogonal experimental design method. The breakage resistance results of the orthogonal analyses show the best condition of this kind of ceramic proppant is A 4 B 3 C 3 D 2 , which means sintering temperature of 1350°C, manganese mineral powder content of 5 wt.%, weight ratio of 75/25 (second grade bauxite to mujie clay), and holding time of 3 h. The ceramic proppants under this very condition of A 4 B 3 C 3 D 2 are then prepared and their phase structure and microstructure are characterized subsequently. X-ray diffraction pattern exhibits that mullite and corundum are the main crystallographic phases. Scanning electron microscopy illustrates the A 4 B 3 C 3 D 2 sample is with non-porous morphology and small amount of corundum grains and liquid phase, which play the role of improving strength. It reveals the orthogonal experimental design is a feasible optimization method and the ceramic proppant made under the condition of A 4 B 3 C 3 D 2 is a promising material for exploiting the coal-bed methane resources.Keywords: Ceramic proppant / optimization / orthogonal experimental design / phase structure / microstructure Schlüsselwörter: Keramische Stützmittel / Optimierung / orthogonaler

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Optical Characterization of Native Defects in 4H–SiC Irradiated by 10 MeV Electrons with Subsequent Annealing

Zhang

Wang

et al. 2021

J Appl Spectrosc

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K. Wang

Preparation and optimization of a low cost, high breakage resistance ceramic proppant special for the coal‐bed methane

Optical Characterization of Native Defects in 4H–SiC Irradiated by 10 MeV Electrons with Subsequent Annealing

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