Macroscopic carbon nanotube assembly/silicon carbide matrix composites produced by gas phase route

Daoyang Han; Hui Mei; Shanshan Xiao; Laifei Cheng

doi:10.1007/s42114-018-0074-x

Macroscopic carbon nanotube assembly/silicon carbide matrix composites produced by gas phase route

Daoyang Han, Hui Mei, Shanshan Xiao, Laifei Cheng

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Macroscopic carbon nanotube (CNT) self-assemblies are attractive in the field of high-performance composites for taking full advantage of outstanding physical and mechanical properties of individual CNTs at macroscopic level. In this study, macroscopic SiC ceramic matrix composites (CMCs) containing CNTs (CNT/SiC) based on the macroscopic CNT self-assemblies were fabricated using ice-segregation-induced self-assembly technique and chemical vapor infiltration process. The microstructure, macromechanical properties, electrical conductivity, and electromagnetic shielding effectiveness of the fabricated CNT/SiC composites were studied systematically. [Figure not available: see fulltext.]

Original language	English
Pages (from-to)	142-150
Number of pages	9
Journal	Advanced Composites and Hybrid Materials
Volume	2
Issue number	1
DOIs	https://doi.org/10.1007/s42114-018-0074-x
State	Published - 15 Mar 2019

Keywords

Carbon nanotube/silicon carbide (CNT/SiC) composites
Chemical vapor infiltration (CVI)
Macroscopic carbon nanotube assembly

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10.1007/s42114-018-0074-x

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abstract = "Macroscopic carbon nanotube (CNT) self-assemblies are attractive in the field of high-performance composites for taking full advantage of outstanding physical and mechanical properties of individual CNTs at macroscopic level. In this study, macroscopic SiC ceramic matrix composites (CMCs) containing CNTs (CNT/SiC) based on the macroscopic CNT self-assemblies were fabricated using ice-segregation-induced self-assembly technique and chemical vapor infiltration process. The microstructure, macromechanical properties, electrical conductivity, and electromagnetic shielding effectiveness of the fabricated CNT/SiC composites were studied systematically. [Figure not available: see fulltext.]",

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T1 - Macroscopic carbon nanotube assembly/silicon carbide matrix composites produced by gas phase route

AU - Han, Daoyang

AU - Mei, Hui

AU - Xiao, Shanshan

AU - Cheng, Laifei

PY - 2019/3/15

Y1 - 2019/3/15

N2 - Macroscopic carbon nanotube (CNT) self-assemblies are attractive in the field of high-performance composites for taking full advantage of outstanding physical and mechanical properties of individual CNTs at macroscopic level. In this study, macroscopic SiC ceramic matrix composites (CMCs) containing CNTs (CNT/SiC) based on the macroscopic CNT self-assemblies were fabricated using ice-segregation-induced self-assembly technique and chemical vapor infiltration process. The microstructure, macromechanical properties, electrical conductivity, and electromagnetic shielding effectiveness of the fabricated CNT/SiC composites were studied systematically. [Figure not available: see fulltext.]

AB - Macroscopic carbon nanotube (CNT) self-assemblies are attractive in the field of high-performance composites for taking full advantage of outstanding physical and mechanical properties of individual CNTs at macroscopic level. In this study, macroscopic SiC ceramic matrix composites (CMCs) containing CNTs (CNT/SiC) based on the macroscopic CNT self-assemblies were fabricated using ice-segregation-induced self-assembly technique and chemical vapor infiltration process. The microstructure, macromechanical properties, electrical conductivity, and electromagnetic shielding effectiveness of the fabricated CNT/SiC composites were studied systematically. [Figure not available: see fulltext.]

KW - Carbon nanotube/silicon carbide (CNT/SiC) composites

KW - Chemical vapor infiltration (CVI)

KW - Macroscopic carbon nanotube assembly

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Macroscopic carbon nanotube assembly/silicon carbide matrix composites produced by gas phase route

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