Jinna Zhi scite author profile

Jinna Zhi

3Publications

12Citation Statements Received

51Citation Statements Given

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118

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Wuhan University of Science and Technology

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Effect of Al(Oh)3 particle size on microstructures and strengths of porous MgAl2O4 ceramics

Zhi¹,

Chen²,

Yan³

et al. 2020

PAC

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Porous MgAl 2 O 4 ceramics were prepared via in-situ decomposition pore-forming (ISDP) technique using Al(OH) 3 and magnesite as raw materials. The influence of Al(OH) 3 particle size (0-44 µm, 44-88 µm, 88-100 µm, 100-150 µm) on the microstructures and strengths of porous spinel ceramics were investigated by means of X-ray diffraction (XRD), scanning electron microscopy (SEM) and energy dispersive spectrometer (EDS). The bimodal distributions were observed among all the pore size distributions of the porous spinel ceramics. The small pores existed inside the particles and the big pores existed between the particles. When the Al(OH) 3 particle size decreased from 100-150 µm to 0-44 µm, the peak of large pores shifted towards left while intensity of the peak of small pores decreased. Simultaneously, the neck-bonds formed between particles grew significantly, which resulted in the increase of compressive strength from 1.4 to 10.8 MPa. The optimized product is the sample with the Al(OH) 3 particle size of 0-44 µm, which has a high apparent porosity (55.2%), a high compressive strength (10.8 MPa) and a relatively homogeneous pore size distribution.

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Vacuum impregnation treatment of microporous Al2O3-MgAl2O4 refractory raw materials with sub-micron pores and high strength

Chen¹,

Yan²,

Schafföner³

et al. 2022

Journal of the European Ceramic Society

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High-strength microporous corundum-mullite refractory aggregates with sub-micron pores using vacuum impregnation treatment

Chen

Yan

Schafföner

et al. 2022

Journal of Materials Research and Technology

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Jinna Zhi

Effect of Al(Oh)3 particle size on microstructures and strengths of porous MgAl2O4 ceramics

Vacuum impregnation treatment of microporous Al2O3-MgAl2O4 refractory raw materials with sub-micron pores and high strength

High-strength microporous corundum-mullite refractory aggregates with sub-micron pores using vacuum impregnation treatment

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