• Journal of Inorganic Materials
  • Vol. 38, Issue 6, 634 (2023)
Qiang CHEN, Shuxin BAI*, and Yicong YE*
Author Affiliations
  • Department of Materials Science and Engineering, College of Aerospace Science and Technology, National University of Defense Technology, Changsha 410073, China
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    DOI: 10.15541/jim20220640 Cite this Article
    Qiang CHEN, Shuxin BAI, Yicong YE. Highly Thermal Conductive Silicon Carbide Ceramics Matrix Composites for Thermal Management: a Review[J]. Journal of Inorganic Materials, 2023, 38(6): 634 Copy Citation Text show less
    Microstructures and thermal conductivities of Si-diamond-SiC composites with different diamond volume contents[31]
    1. Microstructures and thermal conductivities of Si-diamond-SiC composites with different diamond volume contents[31]
    Microstructures and thermal conductivities of diamond/SiC composites with different diamond volume contents[32]
    2. Microstructures and thermal conductivities of diamond/SiC composites with different diamond volume contents[32]
    Diagram of fabrication and microstructure of the 3D HTC C/C-SiC composite[25]
    3. Diagram of fabrication and microstructure of the 3D HTC C/C-SiC composite[25]
    Surface topographies of the as-ablated C/C-SiC[47]
    4. Surface topographies of the as-ablated C/C-SiC[47]
    Flow diagram of preparation process of the C/C-SiC composite[48]
    5. Flow diagram of preparation process of the C/C-SiC composite[48]
    Microstructures of SiC fiber with electrodeposited CNTs and thermophysical properties of SiCf/SiC compersites[57]
    6. Microstructures of SiC fiber with electrodeposited CNTs and thermophysical properties of SiCf/SiC compersites[57]
    Thermal conductivities of Cpf/SiC composites (a) before and (b) after heat-treatment(1600 ℃-2 h)[48]
    7. Thermal conductivities of Cpf/SiC composites (a) before and (b) after heat-treatment(1600 ℃-2 h)[48]
    Characterization of diamond/SiC interfacial zone[58]
    8. Characterization of diamond/SiC interfacial zone[58]
    Microstructures and thermal conductivities of SiCf/SiC composites with different heat-treatment[59]
    9. Microstructures and thermal conductivities of SiCf/SiC composites with different heat-treatment[59]
    Design of heat conductive channels of Cf/SiC with well-designed graphene[61]
    10. Design of heat conductive channels of Cf/SiC with well-designed graphene[61]
    Structural design of three-dimensional-linked Cf/SiC with micro-pipelines[62]
    11. Structural design of three-dimensional-linked Cf/SiC with micro-pipelines[62]
    Low and high magnification SEM images of (a, b) ECNT-CF and (c, d) VACNT-CF fabrics with a growth duration of 30 min[52]
    12. Low and high magnification SEM images of (a, b) ECNT-CF and (c, d) VACNT-CF fabrics with a growth duration of 30 min[52]
    Structure design of the Cf/SiC with aligned carbon nanotube[63]
    13. Structure design of the Cf/SiC with aligned carbon nanotube[63]
    ProducerBrandModulus/GPaStrength/MPaDensity/(g·cm-3) Diameter/μmTC/(W·m-1·K-1)
    NicalonNL20222030002.55142.97
    Hi-Nicalon27028002.74127.77
    Hi-Nicalon-S42026003.051218.4
    TyrannoLox M18733002.48111.4
    ZMI20034002.48112.5
    SA38028003.1010/7.565
    SylramicSylramic40028003.051040-45
    Sylramic-iBN40032003.1010>46
    KD[33]KD-A17021002.4312.3-
    KD-B30030002.7611.2
    KD-C32028002.8711.1
    Table 1. Properties and products of silicon carbide based fibers[21]
    ProducerBrandModulus/GPaStrength/MPaDensity/(g·cm-3) Diameter/μmTC/(W·m-1·K-1)
    UCCP7551721002.0010185
    P10075924102.1510520
    P-12082824102.1810640
    MitsubishiK-110093131002.2101000
    K13D2U93537002.2110800
    K13C2U90038002.210620
    K63B1286026002.1510400
    NipponGranoc92035302.197600
    YS-95A
    Granoc88035302.187500
    YS-90A
    NOCVARBNM6030-15≥550≥1500≥2.1-≥250
    NM9050-20≥850≥2000≥2.15-≥450
    NM9080-20≥850≥2000≥2.15-≥750
    NMA080-25≥950≥2500≥2.15-≥750
    TIANCE-TECHTC-HC-600-S75023002.2013600
    ECO-500-9002500-35002.28-12500-800
    TOYI-CARBENTYG-180023002.212600
    TYG-290025002.212800
    Table 2. Properties and products of pitch based carbon fibers[42-43]
    Qiang CHEN, Shuxin BAI, Yicong YE. Highly Thermal Conductive Silicon Carbide Ceramics Matrix Composites for Thermal Management: a Review[J]. Journal of Inorganic Materials, 2023, 38(6): 634
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