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Constructing orthogonally structured graphene nanointerface on SiC nanowires reinforced carbon/carbon composites to boost mechanical strength and strength retention rate

Yao Guo, Shouyang Zhang, Qiang Song, Fei Zhao, Longkang Cong, Wei Li, Ruimei Yuan

2023Journal of Materiomics10 citationsDOIOpen Access PDF

Abstract

Carbon/carbon composites with higher mechanical strength and better reliability at elevated temperatures are urgently needed to satisfy the practical applications requirements. SiC nanowires (SiCNWs) modified C/C (SC-CC) composites have attracted an abundance of attention for their excellent mechanical performance. To further boost the mechanical strengths of composites and maximize the reinforcing efficiency of SiCNWs, we introduce orthogonally structured graphene nanosheets (OGNs) into SCeCC composites, in which OGNs are grafted on the SiCNWs via chemical vapor deposition (CVD) method, forming SC-G-CC composites. Benefiting from the nano-interface effects, uniform stress distribution, strong SiCNWs/PyC interfacial bonding and elevated stress propagation efficiency in the PyC matrix are achieved, thus SC-G-CC composites accomplish brilliant mechanical properties before and after 1600 °C heat treatment. As temperature rises to 2100 °C, SiCNWs lose efficacy, whereas OGNs with excellent thermal stability continue to play the nano-interface role in the PyC matrix. Therefore, SC-G-CC composites show better mechanical performance after 2100 °C heat treatment, and the mechanical strength retention rate (MSR) of interlaminar shear strength, out-of-plane and in-plane compressive strength of SC-G-CC composites reach 61.0 %, 55.7 % and 55.3 %, respectively. This work proposes an alternative thought for maximizing the potentiality of nanomaterials and edifies the mechanical modification of composites.

Topics & Concepts

Materials scienceComposite materialGrapheneChemical vapor depositionNanowireCarbon fibersNanomaterialsThermal stabilityCompressive strengthStress (linguistics)Composite numberNanotechnologyChemical engineeringLinguisticsEngineeringPhilosophyAdvanced ceramic materials synthesisGraphene research and applicationsDiamond and Carbon-based Materials Research
Constructing orthogonally structured graphene nanointerface on SiC nanowires reinforced carbon/carbon composites to boost mechanical strength and strength retention rate | Litcius