Ablation in different heat fluxes of C/C composites modified by ZrB2–ZrC and ZrB2–ZrC–SiC particles

•Two heat fluxes were used to evaluate the ablation of modified C/C composites.•C/C–ZrB2–ZrC–SiC has the lowest ablation rate under a heat flux of 2.38MW/m2.•Ablation rates of C/C shows the smallest increase with increase in heat flux.•Thermal mismatch and evaporation of SiO2 dominate variations in...

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Published in:Corrosion science Vol. 74; pp. 159 - 167
Main Authors: Liu, Lei, Li, Hejun, Feng, Wei, Shi, Xiaohong, Li, Kezhi, Guo, Lingjun
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01.09.2013
Elsevier
Subjects:
A. Ceramic matrix composites
Applied sciences
B. SEM
Building materials. Ceramics. Glasses
C. High temperature corrosion
C. Oxidation
Ceramic industries
Chemical industry and chemicals
Exact sciences and technology
Technical ceramics
B. SEM
C. High temperature corrosion
C. Oxidation
A. Ceramic matrix composites
Scanning electron microscopy
Temperature
High temperature
Ablation
Carbon
Composite material
Silicon carbide
Zirconium boride
Oxidation
Ceramic materials
High temperature corrosion
Heat transfer
ISSN:0010-938X, 1879-0496
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Abstract •Two heat fluxes were used to evaluate the ablation of modified C/C composites.•C/C–ZrB2–ZrC–SiC has the lowest ablation rate under a heat flux of 2.38MW/m2.•Ablation rates of C/C shows the smallest increase with increase in heat flux.•Thermal mismatch and evaporation of SiO2 dominate variations in the ablation behavior. Carbon/carbon composites modified by ZrB2–ZrC–SiC particles (C/C–Z–SiC), C/C–Z and C/C were ablated by oxyacetylene torch using two different heat fluxes to investigate the effect of doped ceramic particles. Results indicated that C/C–Z–SiC had the best ablation property in heat flux of 2.38MW/m2 whereas their ablation rates increased fastest when heat flux rising from 2.38 to 4.18MW/m2. C/C composites had the poorest ablation property in the lower heat flux and their ablation rates increased slowest. Thermal mismatch of Z, SiC and C and evaporation of SiO2 induced the various ablation behavior.
AbstractList •Two heat fluxes were used to evaluate the ablation of modified C/C composites.•C/C–ZrB2–ZrC–SiC has the lowest ablation rate under a heat flux of 2.38MW/m2.•Ablation rates of C/C shows the smallest increase with increase in heat flux.•Thermal mismatch and evaporation of SiO2 dominate variations in the ablation behavior. Carbon/carbon composites modified by ZrB2–ZrC–SiC particles (C/C–Z–SiC), C/C–Z and C/C were ablated by oxyacetylene torch using two different heat fluxes to investigate the effect of doped ceramic particles. Results indicated that C/C–Z–SiC had the best ablation property in heat flux of 2.38MW/m2 whereas their ablation rates increased fastest when heat flux rising from 2.38 to 4.18MW/m2. C/C composites had the poorest ablation property in the lower heat flux and their ablation rates increased slowest. Thermal mismatch of Z, SiC and C and evaporation of SiO2 induced the various ablation behavior.
Author Guo, Lingjun
Li, Hejun
Li, Kezhi
Feng, Wei
Liu, Lei
Shi, Xiaohong
Author_xml – sequence: 1
  givenname: Lei
  surname: Liu
  fullname: Liu, Lei
– sequence: 2
  givenname: Hejun
  surname: Li
  fullname: Li, Hejun
  email: lihejun@nwpu.edu.cn
– sequence: 3
  givenname: Wei
  surname: Feng
  fullname: Feng, Wei
– sequence: 4
  givenname: Xiaohong
  surname: Shi
  fullname: Shi, Xiaohong
– sequence: 5
  givenname: Kezhi
  surname: Li
  fullname: Li, Kezhi
– sequence: 6
  givenname: Lingjun
  surname: Guo
  fullname: Guo, Lingjun
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Keywords B. SEM
C. High temperature corrosion
C. Oxidation
A. Ceramic matrix composites
Scanning electron microscopy
Temperature
High temperature
Ablation
Carbon
Composite material
Silicon carbide
Zirconium boride
Oxidation
Ceramic materials
High temperature corrosion
Heat transfer
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Snippet •Two heat fluxes were used to evaluate the ablation of modified C/C composites.•C/C–ZrB2–ZrC–SiC has the lowest ablation rate under a heat flux of...
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StartPage 159
SubjectTerms A. Ceramic matrix composites
Applied sciences
B. SEM
Building materials. Ceramics. Glasses
C. High temperature corrosion
C. Oxidation
Ceramic industries
Chemical industry and chemicals
Exact sciences and technology
Technical ceramics
Title Ablation in different heat fluxes of C/C composites modified by ZrB2–ZrC and ZrB2–ZrC–SiC particles
URI https://dx.doi.org/10.1016/j.corsci.2013.04.038
Volume 74
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