Influence of Maleinized Polybutadiene on Adhesive Strength and Toughness of Epoxy Resins

Muthalif, Mohammed Panthakkal Abdul; Choe, Youngson

doi:10.1155/2022/9517467

Cited by 1 publication

(1 citation statement)

References 32 publications

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“…Nanoparticles have a small radius and many surface atoms, which facilitates their physical or chemical combination with polymer chains, increasing rigidity and improving the bending strength of EP 58,59 . However, when the nanoparticle content further increased, n‐CeO 2 particles agglomerate caused a decrease in the flexural strength of the composite material 60 . Moreover, the flexural strength of the modified n‐CeO 2 /EP composite was 1.04 times higher than that of the unmodified n‐CeO 2 /EP composite, suggesting that stearic acid effectively improved the dispersion of n‐CeO 2 in EP and thus enhanced the bending properties of nanocomposites.…”

Section: Resultsmentioning

confidence: 99%

Preparation and physical properties of CeO₂ doped and modified epoxy resin composites

Liang,

Yang,

et al. 2024

Polymer Composites

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Epoxy resin is a widely used polymer material, while its low mechanical properties and thermal stability limit its use in extreme environments such as high temperature and high pressure. In order to improve the performance of EP, this study assessed the enhancement of mechanical properties and thermal stability of EP by stearic acid‐modified n‐CeO2 and its mechanism. Laser particle size analyzers, transmission electron microscopes, and other instruments were used to characterize n‐CeO2. Universal testing machines, thermogravimetric analyzers, and other instruments were used to test n‐CeO2/EP nanocomposites. The results show that fatty acids effectively coated the surface of n‐CeO2, reducing its central particle size from 0.248 μm to 0.193 μm and improving its dispersion and compatibility. The tensile, flexural, impact strength, maximum decomposition temperature, and glass transition temperature (Tg) increased by 382%, 554%, 698%, 5%, and 10%, respectively with 2 wt% filler content. The scanning electron microscopy (SEM) images showed that the addition of n‐CeO2 induced plastic deformation and crack formation in the EP matrix, which enhanced the toughness of the composite material. This study provided the effective methods and basis for the preparation of high‐performance n‐CeO2/EP nanocomposites.Highlights Nano cerium dioxide was modified to improve its dispersion by using stearic acid. High‐performance nanocomposites were prepared by using modified nanoparticles. The stiffness and toughness of the epoxy resin were enhanced by adding n‐CeO2. Thermal stability and heat resistance of the epoxy resin were improved by doping n‐CeO2. SEM images of the impact section showed that n‐CeO2 can prevent crack propagation.

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Section: Resultsmentioning

confidence: 99%

Preparation and physical properties of CeO₂ doped and modified epoxy resin composites

Liang,

Yang,

et al. 2024

Polymer Composites

View full text Add to dashboard Cite

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Influence of Maleinized Polybutadiene on Adhesive Strength and Toughness of Epoxy Resins

Cited by 1 publication

References 32 publications

Preparation and physical properties of CeO₂ doped and modified epoxy resin composites

Preparation and physical properties of CeO₂ doped and modified epoxy resin composites

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Influence of Maleinized Polybutadiene on Adhesive Strength and Toughness of Epoxy Resins

Cited by 1 publication

References 32 publications

Preparation and physical properties of CeO2 doped and modified epoxy resin composites

Preparation and physical properties of CeO2 doped and modified epoxy resin composites

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Preparation and physical properties of CeO₂ doped and modified epoxy resin composites

Preparation and physical properties of CeO₂ doped and modified epoxy resin composites