Effect of SiC location on the ablation of C/C-SiC composites in two heat fluxes

Lei Liu; Hejun Li; Kui Hao; Xiaohong Shi; Kezhi Li; Chang Ni

doi:10.1016/j.jmst.2014.11.021

Effect of SiC location on the ablation of C/C-SiC composites in two heat fluxes

Lei Liu, Hejun Li, Kui Hao, Xiaohong Shi, Kezhi Li, Chang Ni

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

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

31 Scopus citations

Abstract

How layer-segregated distribution of SiC affects the ablation of C/C-SiC composites was studied in thepresent work. A certain amount of SiC particles was deposited at the non-woven (C/C-SiC-1) and web (C/C-SiC-2) layer of 2D needle-punched carbon fibre fabric reinforced pyrocarbon composites, respectively. Ablation under oxyacetylene torch demonstrated that the two composites have similar ablation rates in heat flux of 2.38MW/m² whereas ablation rates of C/C-SiC-2 were much higher than those of C/C-SiC-1 when heat flux was 4.18MW/m². SiO₂ covered partially the defective surface of both composites in the lower heat flux. The different SiC locations induced distinct defects and then led to the two composites' dissimilar ablation rates in the higher heat flux.

Original language	English
Pages (from-to)	345-354
Number of pages	10
Journal	Journal of Materials Science and Technology
Volume	31
Issue number	4
DOIs	https://doi.org/10.1016/j.jmst.2014.11.021
State	Published - 1 Apr 2015

Keywords

Ablation performance
C/C composites
Distribution
SiC

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title = "Effect of SiC location on the ablation of C/C-SiC composites in two heat fluxes",

abstract = "How layer-segregated distribution of SiC affects the ablation of C/C-SiC composites was studied in thepresent work. A certain amount of SiC particles was deposited at the non-woven (C/C-SiC-1) and web (C/C-SiC-2) layer of 2D needle-punched carbon fibre fabric reinforced pyrocarbon composites, respectively. Ablation under oxyacetylene torch demonstrated that the two composites have similar ablation rates in heat flux of 2.38MW/m2 whereas ablation rates of C/C-SiC-2 were much higher than those of C/C-SiC-1 when heat flux was 4.18MW/m2. SiO2 covered partially the defective surface of both composites in the lower heat flux. The different SiC locations induced distinct defects and then led to the two composites' dissimilar ablation rates in the higher heat flux.",

keywords = "Ablation performance, C/C composites, Distribution, SiC",

author = "Lei Liu and Hejun Li and Kui Hao and Xiaohong Shi and Kezhi Li and Chang Ni",

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T1 - Effect of SiC location on the ablation of C/C-SiC composites in two heat fluxes

AU - Liu, Lei

AU - Li, Hejun

AU - Hao, Kui

AU - Shi, Xiaohong

AU - Li, Kezhi

AU - Ni, Chang

PY - 2015/4/1

Y1 - 2015/4/1

N2 - How layer-segregated distribution of SiC affects the ablation of C/C-SiC composites was studied in thepresent work. A certain amount of SiC particles was deposited at the non-woven (C/C-SiC-1) and web (C/C-SiC-2) layer of 2D needle-punched carbon fibre fabric reinforced pyrocarbon composites, respectively. Ablation under oxyacetylene torch demonstrated that the two composites have similar ablation rates in heat flux of 2.38MW/m2 whereas ablation rates of C/C-SiC-2 were much higher than those of C/C-SiC-1 when heat flux was 4.18MW/m2. SiO2 covered partially the defective surface of both composites in the lower heat flux. The different SiC locations induced distinct defects and then led to the two composites' dissimilar ablation rates in the higher heat flux.

AB - How layer-segregated distribution of SiC affects the ablation of C/C-SiC composites was studied in thepresent work. A certain amount of SiC particles was deposited at the non-woven (C/C-SiC-1) and web (C/C-SiC-2) layer of 2D needle-punched carbon fibre fabric reinforced pyrocarbon composites, respectively. Ablation under oxyacetylene torch demonstrated that the two composites have similar ablation rates in heat flux of 2.38MW/m2 whereas ablation rates of C/C-SiC-2 were much higher than those of C/C-SiC-1 when heat flux was 4.18MW/m2. SiO2 covered partially the defective surface of both composites in the lower heat flux. The different SiC locations induced distinct defects and then led to the two composites' dissimilar ablation rates in the higher heat flux.

KW - Ablation performance

KW - C/C composites

KW - Distribution

KW - SiC

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SP - 345

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JO - Journal of Materials Science and Technology

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IS - 4

ER -

Effect of SiC location on the ablation of C/C-SiC composites in two heat fluxes

Abstract

Keywords

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