Novel interpenetrating amphiphilic Co‐networks based on compatibilized NBR/SBR‐montmorillonite composites: A study on the oil absorption characteristics

Essawy, Hisham; El‐Sabbagh, Salwa H.; Tawfik, Magda E.

doi:10.1002/pc.23056

Cited by 7 publications

(4 citation statements)

References 26 publications

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“…This may be due to the high polarity of NBR rubber which causes rubber chains to be attached to mSF particle, leading to more smooth and homogeneous surfaces than unmodified silica fume and commercial silica. This means that, the surface treatment of SF with R1 helped in improving the dispersion in the rubber matrix, these behaviors were confirmed with that obtained by Essawy et al (2014b, 2015).…”

Section: Scanning Electron Microscopy Morphologysupporting

confidence: 81%

Silica and modified silica fume waste (mSF) as reinforcing fillers for rubber industry

El‐Sabbagh

Ahmed

Mahmoud

et al. 2020

PRT

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Purpose The purpose of this paper is to evaluate the efficiency of commercial silica, silica fume-waste (SF) and modified silica fume-waste (mSF) as reinforcing filler in acrylonitrile-butadiene rubber (NBR) and ethylene propylene diene monomer (EPDM) through the mixing process of rubber. The composites were prepared using different loadings of silica fume and commercial silica in EPDM and NBR composites. Structural characterization of silica and SF was done using X-ray fluorescence and scanning electron microscopy (SEM). The surface of silica fume waste was modified using poly methyl methacrylate/butyl acrylate through emulsion polymerization to increase the interaction between silica and rubber, then consequently better dispersion in rubber matrix was obtained. The mSF waste was characterized using FT-IR spectra and transmission electron microscopy. Design/methodology/approach The investigated rubber mixes and vulcanizates were evaluated by measuring the curing characteristics, mechanical testing, thermogravimetric analysis and morphological studies (SEM). The mechanical properties of composites including tensile strength, elongation at break and modulus were estimated and analyzed. Findings The results revealed that the composites (NBR and EPDM) containing mSF as filler exhibited better rheological and mechanical properties compared to unmodified silica waste and commercial silica. The SEM analysis indicated that the mSF was homogeneously dispersed through the surface of NBR and EPDM composites. Also, results showed that (NBR and EPDM) composites exhibited remarkable improvements in tensile strength, elongation at break and hardness in the presence of mSF; they also showed an increase in the thermal stability. This means that the treatment of surface SF can improve its dispersion in rubber. Research limitations/implications Silica cannot be applied in rubber matrix without surface modification because of their incompatibility; their dispersion is not good without surface modification. Practical implications The modified silica surface is considered as effective reinforcing filler which can replace other fillers because of its lower surface energy and enhanced intercalating behavior in rubber. Social implications This study is just a start in establishing rubber projects with wide applications in the industry and providing a cheap local product while preserving the quality and that is the use of factory waste, which helps in protecting the environment from pollution. Originality/value mSF is cheap with relatively high purity, which make rubber/mSF composites appear as new grade of material that can be used in different media rather than rubber.

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Section: Scanning Electron Microscopy Morphologysupporting

confidence: 81%

Silica and modified silica fume waste (mSF) as reinforcing fillers for rubber industry

El‐Sabbagh

Ahmed

Mahmoud

et al. 2020

PRT

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“…In addition, the contact angle 43 (the angle formed by the intersection of the oil-water interface) gives a better idea about the wettability of the sorption surface. Small contact angles (80)(81)(82)(83)(84)(85)(86)(87)(88)(89)(90) correspond to high wettability, when the liquid spreads on the surface. Similarly, large contact angles (140)(141)(142)(143)(144)(145)(146)(147)(148)(149)(150) correspond to low wettability, when the liquid beads on the surface.…”

Section: Principles Of Oil In Water Separationmentioning

confidence: 99%

“…Essawy et al 87 reported a novel interpenetrating amphiphilic co‐networks based on compatibilized acrylonitrile butadiene rubber/styrene butadiene rubber (NBR/SBR) montmorillonite composites provide a possible solution to oil spills problems. The polymer network consists of polar acrylonitrile butadiene rubber and the non‐polar styrene butadiene rubber and the compatibilization were accomplished by montmorillonite.…”

Section: Organic Polymer Nanocomposite Sorbentsmentioning

confidence: 99%

Oil spills adsorption and cleanup by polymeric materials: A review

Haridharan

Sundar

Kurrupasamy

et al. 2022

Polymers for Advanced Techs

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Oil spills are environmental disasters that impact human, plants, and wild life, such as birds, fish, and mammals. This article has comprehensively reviewed the progress made in oil spills remediation especially by polymeric adsorbents. Various methodologies involved in oil sorption using porous polymer network and its recovery are thoroughly discussed. In addition, new concepts and development in synthesizing sponge, fiber, graft, and crosslinked polymer networks are also collected briefly and future perspectives are suggested. With their unique physical and mechanical properties coupled with their very high surface area and small pore sizes, polymer-based adsorbents can be used as advanced materials for cleaning up oil spills.

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“…This leads to more free volume in the copolymer network and consequently; more water can be absorbed (20) . This can be attributed to the presence of the pores inside the formulation (21) .…”

Section: Swelling Propertiesmentioning

confidence: 99%

Antimicrobial and Haemostatic Effect of Chitosan/ Polyacrylic Acid Hybrid Membranes

Abdel‐Mohdy¹,

El-Bisi²,

Abou‐Okeil³

et al. 2016

Egypt. J. Chem.

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HITOSAN/ polyacrylic acid membranes containing different ……amounts of Al 2 (SO 4 ) and/or TiO 2 were prepared. The prepared membranes were characterized by measuring mechanical properties, such as tensile strength and elongation at break, swelling properties, antimicrobial and blood clotting. The results obtained indicate that the presence of Al 2 (SO 4 ) and TiO 2 in the membrane formulations has an incremental effect on the antimicrobial properties and blood clotting in albino rates.

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Novel interpenetrating amphiphilic Co‐networks based on compatibilized NBR/SBR‐montmorillonite composites: A study on the oil absorption characteristics

Cited by 7 publications

References 26 publications

Silica and modified silica fume waste (mSF) as reinforcing fillers for rubber industry

Silica and modified silica fume waste (mSF) as reinforcing fillers for rubber industry

Oil spills adsorption and cleanup by polymeric materials: A review

Antimicrobial and Haemostatic Effect of Chitosan/ Polyacrylic Acid Hybrid Membranes

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