Ultrahigh‐strength alumina ceramic foams via gelation of foamed boehmite sol

Chen, Yugu; Huo, Wenlong; Zhang, Xiaoyan; Lu, Yuju; Yan, Shu; Liu, Jingjing

doi:10.1111/jace.16378

Cited by 36 publications

(13 citation statements)

References 43 publications

(71 reference statements)

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“…The mechanical strength of ceramic composites is mainly determined by the intrinsic strength and decreases exponentially with the increase in porosity. However, the pore structure (pore size, pore wall thickness, and pore formation distribution) also has a comprehensive influence on the strength of final composites 48,49 …”

Section: Resultsmentioning

confidence: 99%

Synthesis and mechanical properties of lightweight hybrid geopolymer foams reinforced with carbon nanotubes

Yan

Zhang

et al. 2020

Int J Applied Ceramic Tech

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A lightweight hybrid geopolymer foams reinforced with carbon nanotubes (CNTs) was exploited by adding the CNTs into geopolymeric matrix through hydrogen peroxide method. The synergistic effects of nanotubes and foaming agent on the phase evolution, microstructure, and mechanical properties were investigated. After introduction of nanotubes, the geopolymer foams reinforced with CNTs (CNTs/KGP) still showed amorphous structure. Porosity of the foams increased with the H2O2 content and decreased with the increase in CNTs content. The addition of CNTs (1‐9 wt%) in foams refined the distribution of pore size from 523 to 352 μm. Compression strength of the CNTs/KGP samples elevated with the increasing content of CNTs, which was contributed to the crack propagation and bridging of CNTs in foams. The CNTs/KGP foams with considerable porosity show potential applications in adsorption, filtration, membrane supports, other industries, etc

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Section: Resultsmentioning

confidence: 99%

Synthesis and mechanical properties of lightweight hybrid geopolymer foams reinforced with carbon nanotubes

Yan

Zhang

et al. 2020

Int J Applied Ceramic Tech

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“…As illustrated in Fig. 1, the foams are subjected to solidi cation with the assistance of agar molecules in the case of ZrO 2 based foams [11] , and rapid gelation of boehmite nanoparticles was triggered by decreasing pH in the case of Al 2 O 3 based foams [12] . Therefore, the dried foams exhibit favorable strength, that keep the whole porous green body holding together and be free of breaking.…”

Section: Resultsmentioning

confidence: 99%

Ceramic foams with highly open channel structure from direct foaming method in combination with hollow spheres as pore-former

Zheng

Luo

You

et al. 2020

Preprint

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To satisfy the ever-increasing demands for high-performance ceramic foams that could be applied in catalysts loader, filtrations and adsorptions, it is critical to develop technologies for ceramic foams with open channel structure. In this work, we fabricated ceramic foams with three-dimensional porous structure specially with open channels by combining direct foaming method with adding pore-forming agent method. There are two levels of length scale present in this hierarchically porous structure, that is, foam structure with spherical pores evolved from bubbles, and open pores on the cell wall derived from silica hollow spheres with thin shell as the pore-former. Hierarchical ZrO 2 based foams with porosity of 86.5%-95.1% and compressive strength of 2.05-5.67 MPa, and Al 2 O 3 based foams with porosity of 86.2%-91.0% and compressive strength of 6.8-13.2 MPa were fabricated. The prepared ceramic foams characterized by this open channel structure are promising to perform outstandingly in the abovementioned fields due to their uniform pore size, low density as well as high mechanical strength.

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“…As illustrated in Figure 1, the foams are subjected to solidification with the assistance of agar molecules in the case of ZrO 2 based foams [11,12], and rapid gelation of boehmite nanoparticles was triggered by decreasing pH in the case of Al 2 O 3 based foams [13]. Therefore, the dried foams exhibit favorable strength, that keeps the whole porous green body holding together and be free of breaking.…”

Section: Resultsmentioning

confidence: 99%

Ceramic foams with highly open channel structure from direct foaming method in combination with hollow spheres as pore-former.

Zheng

Luo

You

et al. 2020

Journal of Asian Ceramic Societies

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Ultrahigh‐strength alumina ceramic foams via gelation of foamed boehmite sol

Cited by 36 publications

References 43 publications

Synthesis and mechanical properties of lightweight hybrid geopolymer foams reinforced with carbon nanotubes

Synthesis and mechanical properties of lightweight hybrid geopolymer foams reinforced with carbon nanotubes

Ceramic foams with highly open channel structure from direct foaming method in combination with hollow spheres as pore-former

Ceramic foams with highly open channel structure from direct foaming method in combination with hollow spheres as pore-former.

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