Influence of hBN and MoS2 fillers on toughness and thermal stability of carbon fabric-epoxy composites

Influence of hBN and MoS2 fillers on toughness and thermal stability of carbon fabric-epoxy composites

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Hexagonal boron nitride (hBN) and molybdenum disulfide (MoS2) fillers of 2 to 8 wt.% influence on toughness, microhardness and thermal stability of carbon fabric-reinforced epoxy composite (CFREC) reported. Mode-I, mixed-mode I/II toughness and microhardness of CFREC improved due to the addition of...

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Bibliographic Details
Main Authors: Yermal Shriraj Rao, B. Shivamurthy, Nanjangud Subbarao Mohan, Nagaraja Shetty
Format: Article
Language:English
Published: Gruppo Italiano Frattura 2022-10-01
Series:Fracture and Structural Integrity
Subjects:
molybdenum disulfide
boron nitride
fracture toughness
thermal stability
microhardness
fracture surface morphology
Online Access:https://www.fracturae.com/index.php/fis/article/view/3765/3656
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Summary:Hexagonal boron nitride (hBN) and molybdenum disulfide (MoS2) fillers of 2 to 8 wt.% influence on toughness, microhardness and thermal stability of carbon fabric-reinforced epoxy composite (CFREC) reported. Mode-I, mixed-mode I/II toughness and microhardness of CFREC improved due to the addition of hBN and MoS2 separately upto 6 wt.% filler loading. The epoxy matrix in CFREC modified by hBN and MoS2 strengthens the matrix, deflects the crack path and resists delamination. Toughness reduced beyond 6 wt.% filler addition due to agglomeration and poor fiber-filler-matrix bonding as revealed by the surface morphology of the fracture specimen. Thermal analysis reveals decomposition temperature at 25% weight loss increased from 395 to 430 �C and 395 to 411 �C due to 4 wt.% MoS2 and 4 wt.% hBN addition to CFREC respectively. Impermeable characteristics of MoS2 and hBN fillers caused tortuous diffusion path for gas molecules and delayed thermal decomposition
ISSN:1971-8993

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