Comprehensive experimental investigations and theoretical predictions on the physical properties of natural rubber composites

Abhisha, Vakkoottil Sivadasan; Sisanth, Krishanagegham Sidharathan; Parameswaranpillai, Jyotishkumar; Pulikkalparambil, Harikrishnan; Siengchin, Suchart; Thomas, Sabu; Stephen, Ranimol

doi:10.1002/app.53197

Cited by 3 publications

(1 citation statement)

References 56 publications

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“…Analyzing the interaction between crossed-breed nanofillers inside the polymer arrange turns out to be fundamental to comprehend how their consolidated nearness affects elective conductivity. The synergistic effects, which arise due to combination of various nanofillers are expected to provide pixel perfect balance between mechanical strength and electrical conductivity, setting stage for next-generation multifunctional materials with enhanced performance [3].This investigation sets out on a comprehensive investigation of cross-breed nanofillers in polymer framework nanocomposites, unravelling the complicated interdependencies that lead to predominant mechanical and electrical properties. Through efficient examination and experimentation, this study points to contribution to the advancing scene of nanocomposite materials, cultivating advancements that rise above the impediments of routine polymers.…”

Section: Introductionmentioning

confidence: 99%

Investigating the Synergistic Effects of Hybrid Nanofillers in Polymer Matrix Nanocomposites for Superior Mechanical and Electrical Performance

Bhong,

Nirsanametla,

Gudainiyan

et al. 2024

E3S Web Conf.

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This research examines the synergistic impacts of hybrid nanofillers, particularly silica nanoparticles (SiO2) and multi-walled carbon nanotubes (MWCNTs), in polyethene (PE) network nanocomposites. The nanocomposites are methodically arranged and characterized for predominant mechanical and electrical execution. Tensile tests uncover a significant upgrade in mechanical properties, with test C showing a tensile quality of 83.2 MPa, flexible modulus of 3.6 GPa, and stretching at a break of 11.8%. Electrical conductivity estimations demonstrate an outstanding change, with test C coming to 1.1×10 −4 S/m Comparative investigation with related works exhibits the competitive points of interest of the crossover nanocomposites, adjusting with later improvements within the field. Morphological examination through checking and transmission electron microscopy affirms the successful scattering and interconnectivity of cross-breed nanofillers inside the polymer network. Affectability examinations emphasize the significance of preparing parameters in fitting nanocomposite properties, whereas recreation studies give hypothetical bits of knowledge into microstructural angles impacting by and large execution. This study contributes to the advancing scene of hybrid nanocomposite materials, advertising a promising road for the improvement of progressed materials with improved multifunctionality.

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Section: Introductionmentioning

confidence: 99%

Investigating the Synergistic Effects of Hybrid Nanofillers in Polymer Matrix Nanocomposites for Superior Mechanical and Electrical Performance

Bhong,

Nirsanametla,

Gudainiyan

et al. 2024

E3S Web Conf.

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Tailored Ni‐Zn‐Cu ferrite/EPDM nanocomposites: Synthesis, characterization, and multifaceted properties for mechanical and electrical applications

Parveen,

Hanif,

Hassan

et al. 2024

Polymer Composites

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In this study, we prepared Ni‐Zn‐Cu Fe2O4 ferrite/ethylene propylene diene monomer (EPDM) rubber nanocomposites with enhanced mechanical and electrical properties. First, Ni‐Zn‐Cu Fe2O4 ferrite nanoparticles were synthesized with a tailored composition of NiZn(0.3)Cu(0.2)Fe2O4(2). Subsequently, these nanoparticles were incorporated into the EPDM rubber matrix through a two‐roll mixing mill. Scanning electron microscopy and x‐rays diffraction techniques were used to explore their morphology and structure. Fourier‐transform infrared spectroscopy was used to identify metal‐oxygen bonds in the nanoparticles and their incorporation in the nanocomposites. Similarly, curing properties, including optimum cure time, scorch time, and torque profiles, were evaluated using a moving die rheometer. While, mechanical properties of these composites, such as tensile strength and Young's modulus, were determined with a universal testing machine. Tensile strength improved from 0.11 MPa to 0.22 MPa (100% increase), whereas, the Young's modulus increased from 0.03 MPa to 0.052 MPa (86% increase). Additionally, we investigated the dielectric properties of these nanocomposites, encompassing permittivity, resistivity, and dielectric constant, using a dielectric properties analyzer. Our findings revealed a significant reduction in dielectric resistivity of nanocomposites (from 33.2 GΩ to 23.38 GΩ) upon the introduction of Ni‐Zn‐Cu Fe2O4 ferrite nanoparticles, indicating the formation of a continuous nanofiller network within the EPDM matrix. Interestingly, as the nanofiller loading increased, both dielectric permittivity and dielectric constant exhibited a gradual rise. The permittivity value increased from 2.31 to 2.39 (Fm−1), while the dielectric constant increased from 0.0091 to 0.0179.Highlights Synthesized Ni‐Zn‐Cu Fe2O4; tuned composition NiZn(0.3)Cu(0.2)Fe2O4(2). Integrated ferrite into EPDM; optimized mixing for enhanced properties. Employed SEM, XRD, and FTIR; revealed morphology, structure, and bonding. Evaluated curing using MDR; unveiled optimal time and torque profiles. Explored dielectric properties; demonstrated reduced resistivity, heightened permittivity.

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Mechanical, thermal and morphological features of biodegradable crosslinked natural rubber latex- dextrin blends

Mathew,

Panicker

2023

J Polym Res

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Comprehensive experimental investigations and theoretical predictions on the physical properties of natural rubber composites

Cited by 3 publications

References 56 publications

Investigating the Synergistic Effects of Hybrid Nanofillers in Polymer Matrix Nanocomposites for Superior Mechanical and Electrical Performance

Investigating the Synergistic Effects of Hybrid Nanofillers in Polymer Matrix Nanocomposites for Superior Mechanical and Electrical Performance

Tailored Ni‐Zn‐Cu ferrite/EPDM nanocomposites: Synthesis, characterization, and multifaceted properties for mechanical and electrical applications

Mechanical, thermal and morphological features of biodegradable crosslinked natural rubber latex- dextrin blends

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