Fatty acid modified cellulose: Preparation and application as green <scp>multi‐functional</scp> additive in a tyre tread formulation

Chowdhury, Soumya Ghosh; Ghosh, Subrata; Pal, Abhijit; Bhattacharyya, Somak; Mukhopadhyay, R.

doi:10.1002/app.52961

J of Applied Polymer Sci

2022

DOI: 10.1002/app.52961

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Fatty acid modified cellulose: Preparation and application as green multi‐functional additive in a tyre tread formulation

Soumya Ghosh Chowdhury

Subrata Ghosh

Abhijit Pal

et al.

Abstract: The increasing demand for biomass-derived material and its usage in different forms in various commercial applications has become a need for sustainability.In this context, cellulose, the most abundant biodegradable material is modified (FAC) and used in tyre tread formulation. The potential of FAC is appraised against the lubricating nature of process oil due to its restricted usage for the presence of toxic polycyclic aromatic materials. In addition to that, Silane coupling agent is also replaced by FAC to a… Show more

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2024

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Cited by 2 publications

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Self‐reinforced natural rubber composites: Preparation and properties study

Liu,

Wang,

Huang

et al. 2024

J of Applied Polymer Sci

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In the contemporary modern mining sector, rubber conveyor belts are extensively and frequently utilized. Exceptional tear resistance and high elongation of the top cover rubber of the belt are imperative. In this investigation, a portion of natural rubber (NR) underwent partial vulcanization in advance. Subsequently, this pre‐vulcanized NR (PNR) was mixed with the NR matrix via mechanical blending. Due to the increased viscosity resulting from pre‐vulcanization, the PNR may disperse in the NR matrix, maintaining a specific microstructure without complete dissolution. During subsequent vulcanization, the PNR could co‐vulcanize with the NR matrix, forming a well‐bonded interface and ultimately yielding self‐reinforced NR (SNR) composites. The influences of the mass ratio of PNR to the NR matrix, sulfur content in PNR and pre‐vulcanization time on the mechanical properties of the SNR composites were thoroughly investigated. The results indicated that adding PNR effectively improved the tear strength of NR. When the PNR replaced 20 wt% of NR, sulfur content in PNR was 2.4 phr and pre‐vulcanization time was 2 min, the tear strength, stress at 300% elongation and wear resistance of SNR composites increased by 34.1%, 16.6%, and 10.2% compared to NR control sample, while elongation at break remained at 898%. These findings suggest that it is possible to enhance the tear strength of rubber without compromising elongation at break.

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Self‐reinforced natural rubber composites: Preparation and properties study

Liu,

Wang,

Huang

et al. 2024

J of Applied Polymer Sci

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Preparation and molecular dynamics simulation of 3-isocyanatopropyltrimethoxysilane-modified sisal microcrystalline cellulose/natural rubber composites

Li,

Wang,

Wang

et al. 2024

Cellulose

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Fatty acid modified cellulose: Preparation and application as green multi‐functional additive in a tyre tread formulation

Cited by 2 publications

References 32 publications

Self‐reinforced natural rubber composites: Preparation and properties study

Self‐reinforced natural rubber composites: Preparation and properties study

Preparation and molecular dynamics simulation of 3-isocyanatopropyltrimethoxysilane-modified sisal microcrystalline cellulose/natural rubber composites

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