Mechanical and damping properties of epoxy/liquid rubber intercalating organic montmorillonite integration nanocomposites

Mao, Duming; Zou, Huawei; Liang, Mei; Zhou, Shengtai; Yang, Chen

doi:10.1002/app.39797

Cited by 6 publications

(3 citation statements)

References 37 publications

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“…The term "additive manufacturing" (AM) is that preferred by the ASTM to collectively refer to automated "additive" techniques such as stereolithography (SLA) and fused deposition modelling (FDM) used for building well-defined 3D structures. 253 "Additive" is thus used to contrast traditional "subtractive" techniques such as milling 254 and stamping. 255 AM tends to be more precise, less energy intensive, 256 and produces no waste from residual unused build material.…”

Section: Additive Manufacturingmentioning

confidence: 99%

Toughening of photo-curable polymer networks: a review

Schwentenwein²,

et al. 2016

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Section: Additive Manufacturingmentioning

confidence: 99%

Toughening of photo-curable polymer networks: a review

Schwentenwein²,

et al. 2016

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“…The addition of both oMMT and ETBN led to a significant improvement in the epoxy matrix damping properties while maintaining the high tensile strength. The improvement in the damping performance due to the incorporation of ETBN-intercalating oMMT nanocomposites has been confirmed by Mao et al [ 105 ].…”

Section: Hybrid Epoxy Nanocompositesmentioning

confidence: 61%

Hybrid Epoxy Nanocomposites: Improvement in Mechanical Properties and Toughening Mechanisms—A Review

Białkowska¹,

Bakar²,

Kucharczyk

et al. 2023

Polymers

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This article presents a review on the recent advances in the field of ternary diglycidyl ether of bisphenol A epoxy nanocomposites containing nanoparticles and other modifiers. Particular attention is paid to their mechanical and thermal properties. The properties of epoxy resins were improved by incorporating various single toughening agents, in solid or liquid states. This latter process often resulted in the improvement in some properties at the expense of others. The use of two appropriate modifiers for the preparation of hybrid composites, possibly will show a synergistic effect on the performance properties of the composites. Due to the huge amount of modifiers that were used, the present paper will focus mainly on largely employed nanoclays with modifiers in a liquid and solid state. The former modifier contributes to an increase in the flexibility of the matrix, while the latter modifier is intended to improve other properties of the polymer depending on its structure. Various studies which were carried out on hybrid epoxy nanocomposites confirmed the occurrence of a synergistic effect within the tested performance properties of the epoxy matrix. Nevertheless, there are still ongoing research works using other nanoparticles and other modifiers aiming at enhancing the mechanical and thermal properties of epoxy resins. Despite numerous studies carried out so far to assess the fracture toughness of epoxy hybrid nanocomposites, some problems still remain unresolved. Many research groups are dealing with many aspects of the subject, namely the choice of modifiers and preparation methods, while taking into account the protection of the environment and the use of components from natural resources.

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“…In addition, composites consisting of glass fiber and scrap rubber by mixture were also prepared [50]. Micro-nano constrained damping structural units with high energy attenuation capacity have also been developed to incorporate into the epoxy matrix [51]. The influences of hydrogen bonding interactions on damping behavior have also been discussed.…”

Section: Polymer Matrixmentioning

confidence: 99%

A review on the damping properties of fiber reinforced polymer composites

Tang

Xiong

2018

Journal of Industrial Textiles

112

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Fiber reinforced polymer composites have great potential for engineering applications. In this work, we have provided a comprehensive review on the damping properties of fiber reinforced polymer composites. This paper has focused on the mechanism and analytical method of damping properties. This work also presents a broad review on several factors which determined the damping, such as matrix, fiber types, fiber architecture, fiber surface modification, and incorporated fillers. We further discussed the role of interfacial region on the improvement of damping, where high shear strain energy is stored at this region. Nanofillers, fiber coating, and interpenetrating polymer networks have high potential for damping treatment. We have concluded this review with some helpful suggestions for the future development of fiber reinforced composites with desired damping properties.

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Mechanical and damping properties of epoxy/liquid rubber intercalating organic montmorillonite integration nanocomposites

Cited by 6 publications

References 37 publications

Toughening of photo-curable polymer networks: a review

Toughening of photo-curable polymer networks: a review

Hybrid Epoxy Nanocomposites: Improvement in Mechanical Properties and Toughening Mechanisms—A Review

A review on the damping properties of fiber reinforced polymer composites

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