TY - JOUR
T1 - Effect of BN/SiC interfacial coatings on the tensile properties of SiC/SiC minicomposites fabricated by PIP
AU - Dai, Jianwei
AU - Wang, Yiguang
AU - Xu, Zhenhua
AU - Mu, Rende
AU - Liu, Wei
AU - He, Limin
N1 - Publisher Copyright:
© 2020 Elsevier Ltd and Techna Group S.r.l.
PY - 2020/11
Y1 - 2020/11
N2 - Boron nitride and silicon carbide interfacial coatings were deposited by chemical vapor infiltration to prepare SiC/SiC minicomposites by the precursor infiltration and pyrolysis process. The tensile properties of the SiC/SiC minicomposites were assessed by the acoustic emission method. A single-layered BN coating increased the strength of the uncoated minicomposite from 416.4 MPa to 478.6 MPa, while the strengths of the BN/SiC-1 and BN/SiC-2 samples with a double-layered coating were 582.3 and 638.1 MPa, respectively. The total thickness of the BN/SiC-2 coating was the same as that of BN/SiC-1, while the BN/SiC-2 sample had a thicker BN layer. Besides the release of residual stress and elastic deformation stages, the stress-strain curve of minicomposite with interfacial coating contains a non-linear stage corresponding to the matrix crack generation, propagation, and deflection. Moreover, minimal fiber debonding was observed in the uncoated minicomposite, whereas fiber debonding of BN and BN/SiC-1 minicomposites occurred at the interface between the BN coating and fibers. In the double-layered BN/SiC-2 minicomposites, following matrix crack generation and propagation into the BN coating, cracks deflected both between the sublayers and at the interface between BN and fibers, where the debonding occurred.
AB - Boron nitride and silicon carbide interfacial coatings were deposited by chemical vapor infiltration to prepare SiC/SiC minicomposites by the precursor infiltration and pyrolysis process. The tensile properties of the SiC/SiC minicomposites were assessed by the acoustic emission method. A single-layered BN coating increased the strength of the uncoated minicomposite from 416.4 MPa to 478.6 MPa, while the strengths of the BN/SiC-1 and BN/SiC-2 samples with a double-layered coating were 582.3 and 638.1 MPa, respectively. The total thickness of the BN/SiC-2 coating was the same as that of BN/SiC-1, while the BN/SiC-2 sample had a thicker BN layer. Besides the release of residual stress and elastic deformation stages, the stress-strain curve of minicomposite with interfacial coating contains a non-linear stage corresponding to the matrix crack generation, propagation, and deflection. Moreover, minimal fiber debonding was observed in the uncoated minicomposite, whereas fiber debonding of BN and BN/SiC-1 minicomposites occurred at the interface between the BN coating and fibers. In the double-layered BN/SiC-2 minicomposites, following matrix crack generation and propagation into the BN coating, cracks deflected both between the sublayers and at the interface between BN and fibers, where the debonding occurred.
KW - Ceramic matrix composites
KW - Chemical vapor infiltration
KW - Fracture mechanism
KW - Interfacial coating
KW - Precursor infiltration and pyrolysis
KW - Tensile properties
UR - https://www.scopus.com/pages/publications/85087415937
U2 - 10.1016/j.ceramint.2020.06.292
DO - 10.1016/j.ceramint.2020.06.292
M3 - Article
AN - SCOPUS:85087415937
SN - 0272-8842
VL - 46
SP - 25058
EP - 25065
JO - Ceramics International
JF - Ceramics International
IS - 16
ER -