Minzhong Huang scite author profile

Minzhong Huang

3Publications

1Citation Statement Received

68Citation Statements Given

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Xiamen University

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Dense SiC_f/MoSi₂ composite via liquid silicon infiltration

Huang

Wang

et al. 2019

J Am Ceram Soc

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Silicon carbide fiber reinforced MoSi2 matrix composite (SiCf/MoSi2) is prepared by liquid silicon infiltration at 1450°C. SiC fiber preform is first impregnated with phosphomolybdic acid (PMA) solution in ethyl alcohol. After calcinations, the PMA is converted into MoO3. Following the heating in hydrogen atmosphere, the MoO3 is reduced into metallic Mo, leading to a porous SiCf/Mo. The porous preform is then infiltrated with liquid silicon above silicon melting point to produce SiCf/MoSi2. The microstructure evolution and the underlying mechanism are studied. It is found that MoSi2 is formed by dissolution‐precipitation. Through multiple impregnation‐calcination cycles, a fully dense SiCf/MoSi2 can be obtained with MoSi2 as the continuous matrix phase. The presence of Mo is found to significantly reduce the attack of liquid silicon the silicon carbide fiber reinforcements.

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Facile synthesis of porous Mo ₂ C/C composites by using luffa sponge-derived carbon template in molten salt media

2019

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Herein, we report the synthesis of a new type of porous Mo 2 C/C composite by using luffa sponge-derived carbon template and ammonium molybdate ((NH 4 ) 6 Mo 7 O 24 •4H 2 O) in molten NaCl–KCl salt media. The product exhibits a higher specific surface area and three-dimensional porous structure, including macrochannels, micropores and mesopores. The desirable porous structure results from the carbon template structure and Mo 2 C coating formed.

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Supplementary material from "Facile synthesis of porous Mo₂C/C composites by using luffa sponge-derived carbon template in molten salt media"

Huang¹,

Zeng²,

Zhu³

2019

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Minzhong Huang

Dense SiC_f/MoSi₂ composite via liquid silicon infiltration

Facile synthesis of porous Mo ₂ C/C composites by using luffa sponge-derived carbon template in molten salt media

Supplementary material from "Facile synthesis of porous Mo₂C/C composites by using luffa sponge-derived carbon template in molten salt media"

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Minzhong Huang

Dense SiCf/MoSi2 composite via liquid silicon infiltration

Facile synthesis of porous Mo 2 C/C composites by using luffa sponge-derived carbon template in molten salt media

Supplementary material from "Facile synthesis of porous Mo2C/C composites by using luffa sponge-derived carbon template in molten salt media"

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Dense SiC_f/MoSi₂ composite via liquid silicon infiltration

Facile synthesis of porous Mo ₂ C/C composites by using luffa sponge-derived carbon template in molten salt media

Supplementary material from "Facile synthesis of porous Mo₂C/C composites by using luffa sponge-derived carbon template in molten salt media"