Attapulgite–MXene Hybrids with Ti3C2Tx Lamellae Surface Modified by Attapulgite as a Mechanical Reinforcement for Epoxy Composites

Liu, Lu; Ying, Guobing; Zhao, Yang; Li, Yuexia; Wu, Yiran; Dong, Wen; Wu, Meng; Wang, Minghui; Zhou, Qiang; Wang, Xiang; Wang, Cheng

doi:10.3390/polym13111820

Cited by 12 publications

(7 citation statements)

References 59 publications

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“…But the matrix's ability to wet the filler affects the tensile strength, 54 and 3A3AT has weaker mechanical properties than 0A3AT because ATP and rough WS particles after alkali treatment increased the specific surface area of fillers, the encapsulation of PVC to fillers reduced, and the internal interface of the composites was discontinuous, which finally lead to the decrease of the mechanical properties of the composites. On the other hand, the shape and particle size of fillers affected the agglomeration tendency and strength of fillers in composites, 52,55 ATP and rough WS particles formed mechanical adhesion in the mixing process and lead to reinforcement agglomeration and stress concentration 56 …”

Section: Resultsmentioning

confidence: 99%

“…On the other hand, the shape and particle size of fillers affected the agglomeration tendency and strength of fillers in composites, 52,55 ATP and rough WS particles formed mechanical adhesion in the mixing process and lead to reinforcement agglomeration and stress concentration. 56 According to Figure 8, non-alkali treated composites have more pull-out voids, and the interface between the WS and the PVC matrix is weaker and has obvious gaps. The pull-out voids in the composites are minimized after alkali treatment, and the interface is more tightly bonded.…”

Section: Composites' Mechanical Properties and Microstructurementioning

confidence: 99%

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Preparation and properties of PVC composites filled with walnut shell powder hybrid attapulgite

Yang,

Zhang,

Chen

et al. 2023

Vinyl Additive Technology

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In order to reveal the effect of alkali treatment of walnut shell (WS) powder and attapulgite (ATP) hybrid filling on the properties of WS/polyvinyl chloride (PVC) composites, and to compare the effects of different reinforcement methods, WS/PVC composites were prepared by single screw melt extrusion. Furthermore, analysis was conducted on the chemical composition, thermal stability, microstructure, and physical, mechanical and wear resistance properties of composites. The results showed that ATP hybrid can enhance the performance of WPC more effectively than alkali treatment, unmodified WS blended with ATP composites have the best physical, mechanical properties, abrasive wear resistance, as well as lower water absorption, compared with the untreated, the tensile strength, bending strength and impact strength increased by 24%, 8%, and 21%, respectively. In addition, the composites of ATP hybrid alkali treated WS have the best thermal stability, and its pyrolysis residue is 15.64% higher than untreated composites. The study found that ATP have a larger potential to enhance the properties of composites than alkali treatment.Highlights Chemical treatment and inorganic mineral particle filling were used to enhance the properties of the WS/PVC composites. The experimental results showed that attapulgite can maximize the properties of the composites without alkali treatment. This means that attapulgite filling is a more effective and environmentally friendly and simple method to enhance the properties of composites than alkali treatment. The wear failure modes of the composites are mainly micro‐indentation and micro‐cutting.

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Section: Resultsmentioning

confidence: 99%

Section: Composites' Mechanical Properties and Microstructurementioning

confidence: 99%

Preparation and properties of PVC composites filled with walnut shell powder hybrid attapulgite

Yang,

Zhang,

Chen

et al. 2023

Vinyl Additive Technology

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“…These results are due to the reinforcing effect of the nanofiller bonded to the matrix network, enhancing the stiffness and slowing the T g because of the impact over the crosslink density of the epoxy network. Attapulgite 1D nanorods (ATP, 20 nm diameter) were also recently employed to further functionalize the MTHPA-MXene surface by hydrogen bonding between hydroxyls of ATP and -COOH and hydroxyls from MTHPA-MXene ( Figure 5 a,b) [ 38 ]. Incorporating ATP nanorods increased the storage modulus, but an excess of ATP reduced the mechanical behavior because the ATP/MXene interface was weaker than ATP/ER or MXene/ER interfaces, and some ATP was dispersed into the ER.…”

Section: Properties and Applications Of Mxene/epoxy Compositesmentioning

confidence: 99%

Section: Figurementioning

confidence: 99%

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Recent Advances in MXene/Epoxy Composites: Trends and Prospects

et al. 2022

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Epoxy resins are thermosets with interesting physicochemical properties for numerous engineering applications, and considerable efforts have been made to improve their performance by adding nanofillers to their formulations. MXenes are one of the most promising functional materials to use as nanofillers. They have attracted great interest due to their high electrical and thermal conductivity, hydrophilicity, high specific surface area and aspect ratio, and chemically active surface, compatible with a wide range of polymers. The use of MXenes as nanofillers in epoxy resins is incipient; nevertheless, the literature indicates a growing interest due to their good chemical compatibility and outstanding properties as composites, which widen the potential applications of epoxy resins. In this review, we report an overview of the recent progress in the development of MXene/epoxy nanocomposites and the contribution of nanofillers to the enhancement of properties. Particularly, their application for protective coatings (i.e., anticorrosive and friction and wear), electromagnetic-interference shielding, and composites is discussed. Finally, a discussion of the challenges in this topic is presented.

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Mechanical Properties and Reinforcement Effect of Single MXene Flakes and MXene Composites

Cheng,

Sinitskii

2024

Transition Metal Carbides and Nitrides (MXenes) Handbook

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Attapulgite–MXene Hybrids with Ti3C2Tx Lamellae Surface Modified by Attapulgite as a Mechanical Reinforcement for Epoxy Composites

Cited by 12 publications

References 59 publications

Preparation and properties of PVC composites filled with walnut shell powder hybrid attapulgite

Preparation and properties of PVC composites filled with walnut shell powder hybrid attapulgite

Recent Advances in MXene/Epoxy Composites: Trends and Prospects

Mechanical Properties and Reinforcement Effect of Single MXene Flakes and MXene Composites

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