Miaomiao Qian scite author profile

For the first time, phenolic formaldehyde resin (PF)-treated silica carbon black (SiCB) were prepared with different treatment conditions and their effect as fillers on the mechanical properties of filler filled natural rubber/butadiene rubber (NR/BR) composites were investigated in detail. The PF coating layer on the SiCB derived from rusk husk not only promoted the dispersion of the fillers but also improved the interfacial interactions between fillers and the rubber matrix. As a result, both the cross-link density and mechanical properties of the obtained composites were effectively enhanced. The filler SiCB with 3 wt % PF surface treatment greatly improved the tensile strength of NR/BR composites and reached 7.1 MPa, which increased by 73.7% compared with that of SiCB-filled NR/BR composites. The improved interfacial interactions promoted higher energy dissipation, leading to simultaneously enhancing the glass transition temperature of the obtained composites. Due to the easy processing and low cost of filler as well as the effectively enhanced mechanical properties of composites, the PF-coating methodology has a great potential for practical applications in SiCB reinforced high-performance composites. A commercial filler, carbon black (N774), was also used in this study and evaluated under the same conditions for comparison.

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Polydopamine Modified Rice Husk-derived Silicon Carbon Black Used as Green Filler in Natural Rubber/Butadiene Rubber: Design, Processing and Properties

Liang

Sun

et al. 2021

Fibers Polym

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Mechanical Properties of Silicon Carbon Black Filled Natural Rubber Elastomer

Qian

Sui

Zhu

2019

Chem. Res. Chin. Univ.

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State-of-art progress and perspectives on alloy-type anode materials for potassium-ion batteries

Luo

Feng

Qian

et al. 2023

Mater. Chem. Front.

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The Influence of Filler Size and Crosslinking Degree of Polymers on Mullins Effect in Filled NR/BR Composites

Qian

Chen

et al. 2021

Polymers

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Two factors, the crosslinking degree of the matrix (ν) and the size of the filler (Sz), have significant impact on the Mullins effect of filled elastomers. Herein, the result. of the two factors on Mullins effect is systematically investigated by adjusting the crosslinking degree of the matrix via adding maleic anhydride into a rubber matrix and controlling the particle size of the filler via ball milling. The dissipation ratios (the ratio of energy dissipation to input strain energy) of different filled natural rubber/butadiene rubber (NR/BR) elastomer composites are evaluated as a function of the maximum strain in cyclic loading (εm). The dissipation ratios show a linear relationship with the increase of εm within the test range, and they depend on the composite composition (ν and Sz). With the increase of ν, the dissipation ratios decrease with similar slope, and this is compared with the dissipation ratios increase which more steeply with the increase in Sz. This is further confirmed through a simulation that composites with larger particle size show a higher strain energy density when the strain level increases from 25% to 35%. The characteristic dependence of the dissipation ratios on ν and Sz is expected to reflect the Mullins effect with mathematical expression to improve engineering performance or prevent failure of rubber products.

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Enhanced mechanical and dielectric properties of natural rubber using sustainable natural hybrid filler

Qian

Shi

et al. 2021

Applied Surface Science Advances

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Miaomiao Qian

Rice husk-based adsorbents for removing ammonia: Kinetics, thermodynamics and adsorption mechanism

FeNiMo trimetallic nanoparticles encapsulated in carbon cages as efficient hydrogen evolution reaction electrocatalysts

Surface Treatment Effects on the Mechanical Properties of Silica Carbon Black Reinforced Natural Rubber/Butadiene Rubber Composites

Polydopamine Modified Rice Husk-derived Silicon Carbon Black Used as Green Filler in Natural Rubber/Butadiene Rubber: Design, Processing and Properties

Mechanical Properties of Silicon Carbon Black Filled Natural Rubber Elastomer

State-of-art progress and perspectives on alloy-type anode materials for potassium-ion batteries

The Influence of Filler Size and Crosslinking Degree of Polymers on Mullins Effect in Filled NR/BR Composites

Enhanced mechanical and dielectric properties of natural rubber using sustainable natural hybrid filler

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