Effects of CaCO<sub>3</sub> additive on properties and microstructure of corundum‐ And mullite‐based ceramic proppants

Qin, Mei; Tian, Yuming; Hao, Huilan; Li, Guomin; Zhou, Yi; Bai, Pinbo

doi:10.1111/ijac.13470

Cited by 13 publications

(8 citation statements)

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“…The decomposition of kaolin to form mullite also yields cristobalite (Sainz et al , 2000; Sahnoune et al , 2013; Aswad et al , 2021), which transforms into an amorphous phase at high temperatures and impacts the mechanical properties of mullite composite ceramics negatively. To improve the mechanical strength and fracture resistance of mullite composite ceramics, some recent papers have focused on the modification of mullite through the introduction of secondary phases (Ji et al , 2013; Mahmood et al , 2017; Qian et al , 2020; Qin et al , 2020; Sarker et al , 2022). Some agents, such as Al 2 O 3 (Wu et al , 2016), ZrO 2 (Sistani et al , 2019) and SiC (Jing et al , 2014), have been employed as secondary phases to reinforce mullite ceramics.…”

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confidence: 99%

Influence of zirconia on the sintering behaviour and mechanical properties of reaction-sintered mullite-based composite ceramics

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Influence of zirconia on the sintering behaviour and mechanical properties of reaction-sintered mullite-based composite ceramics

et al. 2022

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“…Due to the low content of Al 2 O 3 in the raw material, mullite is the main sintering product, only a small amount of corundum is distributed in the proppant, so it is difficult to observe the micromorphology of corundum. The corundum crystal develops completely under the action of sintering driving force when the temperature rises to 1340℃, and the crystal billet gradually develops into flat and layered corundum 41 . The flat corundum and rod‐shaped mullite are interlaced and woven to form a three‐dimensional network structure, which also corresponds to the raised platform structure in Figure 6C.…”

Section: Resultsmentioning

confidence: 94%

Effects of sintering temperature on microstructure and properties of low‐grade bauxite‐based ceramic proppant

Ding

Fang

Xiao

et al. 2021

Int J Applied Ceramic Tech

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Low density and high strength ceramic proppant was prepared by sintering high aluminium type low‐grade bauxite and high iron type low‐grade bauxite at the temperature range from 1300℃ to 1360℃. The phase composition and micromorphology of ceramic proppant were, respectively, characterized by X‐ray diffraction (XRD) and scanning electron microscope (SEM). The bulk density, apparent density, and breakage ratio of ceramic proppant were tested using standard methods. The results show that mullite crystal and corundum crystal are fully developed, the spatial network structure of rod‐shaped mullite is formed, and corundum crystal is evenly distributed in the sample when the sintering temperature is 1340℃. At this temperature, the bulk density of the sample is 1.42 g/cm3, the apparent density is 2.67 g/cm3, and the breakage ratio is 5.1% under the closure pressure of 52 MPa. Then, the growth mechanism of mullite crystal in ceramic proppant was explored. The results reveal that the mullite crystal in ceramic proppant conforms to the layer growth theory. The secondary crystal nucleus is formed in the growth process and shows a step growth mechanism. With the increase in sintering temperature, the preferred orientation growth of mullite crystal finally forms needle‐like morphology.

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“…Mullite possesses outstanding properties, such as high melting point, low thermal expansion coefficient, high‐temperature resistance, strong creep, and thermal shock resistance 12 . As a result, it is widely used to fabricate oxide/oxide ceramic composites 13–16 . Moreover, using cheap coal gangue instead of pure raw materials in the synthesis of mullite allows one to solve the problems associated with environmental pollution, reduce the costs, and realize its value‐added utilization.…”

Section: Introductionmentioning

confidence: 99%

“…obtained mullite whisker ceramic microfiltration membranes with a high degree of open porosity and high mechanical strength with coal gangue. Qin et al 16 . developed mullite‐based ceramic proppants with ultra‐low density and high strength.…”

Section: Introductionmentioning

confidence: 99%

“…12 As a result, it is widely used to fabricate oxide/oxide ceramic composites. [13][14][15][16] Moreover, using cheap coal gangue instead of pure raw materials in the synthesis of mullite allows one to solve the problems associated with environmental pollution, reduce the costs, and realize its value-added utilization. In this respect, resource utilization of coal gangue has attracted increased attention over the past years.…”

Section: Introductionmentioning

confidence: 99%

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Mechanical properties of in situ synthesized mullite‐based composite ceramics with three‐dimensional network structure

Liu

Xie

et al. 2022

Int J Applied Ceramic Tech

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Needle-like nanocrystalline mullite powders were prepared through the molten salt process at the temperature of 900 • C using coal gangue as raw material. Then, mullite-based composite ceramics were prepared by a conventional solid-state reaction between in situ synthesized mullite and Al 2 O 3 powders. Effects of Al 2 O 3 content and sintering temperatures on phase compositions, microstructure, and mechanical properties of the mullite-based composite ceramics were also studied. The results show that mullite content productivity increase from 72% to 95%, as the sintering temperature increased from 1480 • C to 1580 • C, which led to the improvement in the bulk density and flexural strength of the samples. The three-dimensional interlocking structure for mullite-based composite ceramics was obtained by the in situ solid-state reaction process. The maximum bulk density, flexural strength, and fracture toughness for the sample with 15 wt% Al 2 O 3 content are 2.48 g/cm 3 , 139.79 MPa, and 5.62 MPa⋅⋅m 1/2 , respectively, as it was sintered at the temperature of 1560 • C for 3 h. The improved mechanical properties of mullite-based composite ceramics maybe ascribed to good densification and increased mullite phase content, as well as to the in situ three-dimensional network structure. Therefore, the results would provide new ideas for high-value utilization of coal gangue.

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Effects of CaCO₃ additive on properties and microstructure of corundum‐ And mullite‐based ceramic proppants

Cited by 13 publications

References 15 publications

Influence of zirconia on the sintering behaviour and mechanical properties of reaction-sintered mullite-based composite ceramics

Influence of zirconia on the sintering behaviour and mechanical properties of reaction-sintered mullite-based composite ceramics

Effects of sintering temperature on microstructure and properties of low‐grade bauxite‐based ceramic proppant

Mechanical properties of in situ synthesized mullite‐based composite ceramics with three‐dimensional network structure

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Effects of CaCO3 additive on properties and microstructure of corundum‐ And mullite‐based ceramic proppants

Cited by 13 publications

References 15 publications

Influence of zirconia on the sintering behaviour and mechanical properties of reaction-sintered mullite-based composite ceramics

Influence of zirconia on the sintering behaviour and mechanical properties of reaction-sintered mullite-based composite ceramics

Effects of sintering temperature on microstructure and properties of low‐grade bauxite‐based ceramic proppant

Mechanical properties of in situ synthesized mullite‐based composite ceramics with three‐dimensional network structure

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Effects of CaCO₃ additive on properties and microstructure of corundum‐ And mullite‐based ceramic proppants