Barrier properties of electron-beam-modified EPDM rubber

Majumder, Papiya Sen; Bhowmick, Anil K.; Majali, A.B.; Tikku, V.K.

doi:10.1002/(sici)1097-4628(20000207)75:6<784::aid-app7>3.0.co;2-9

Cited by 11 publications

(2 citation statements)

References 20 publications

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“…The specimens were weighed at regular intervals after wiping off surplus solvent with a soft tissue paper. The diffusion coeffi cient (D) of the solvent was calculated using the simplifi ed expression given below 40 .…”

Section: Testing Proceduresmentioning

confidence: 99%

Nanocomposites Based on Thermoplastic Elastomeric Blends of Styrene Acrylonitrile and Ethylene Vinyl Acetate: Effect of Nature and Loading of Nanoclays and Dynamic Vulcanization

Patel

Maiti

Naskar

et al. 2006

Polymers and Polymer Composites

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A thermoplastic elastomer (TPE) is a polymeric material having rubber-like properties as well as thermoplastic-like processability. In the present work, TPE based on 30:70 w/w styrene acrylonitrile (SAN): ethylene vinyl acetate (EVA) blend was prepared. To improve the strength of the material, two types of nanoclay (Cloisite NA+ and Cloisite 10A) were added to the blend. The loading of the clays was also varied. The best mechanical properties were observed with Cloisite NA+ at 4 phr loading. The results were explained with the help of a knowledge of the morphology of the nanocomposites, as studied by X-ray diffraction (XRD), atomic force microscopy (AFM) and X-ray dot-mapping. The dynamic mechanical properties and the diffusion behaviour of acetone through the resultant nanocomposites corroborated the observations on static mechanical properties. Dynamic vulcanization significantly improved the mechanical properties.

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Section: Testing Proceduresmentioning

confidence: 99%

Nanocomposites Based on Thermoplastic Elastomeric Blends of Styrene Acrylonitrile and Ethylene Vinyl Acetate: Effect of Nature and Loading of Nanoclays and Dynamic Vulcanization

Patel

Maiti

Naskar

et al. 2006

Polymers and Polymer Composites

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“…The suitability of a particular polymer as a barrier material under specified application conditions is determined by its sorption/desorption characteristics as well as by the related diffusion anomalies [1][2][3][4]. Excellent works on the molecular transport of liquids through solid polymeric materials has been reported by several researchers [5][6][7][8][9]. An important requirement of a membrane material is that it should be chemically inert with good mechanical properties and dimensional stability.…”

Section: Introductionmentioning

confidence: 99%

Aliphatic Liquid Transport through Heterogeneous Ethylene—Propylene— Diene Monomer Rubber/Poly (ethylene-co-vinyl acetate) Blends

George

Kumari

Unnikrishnan

2009

Journal of Elastomers & Plastics

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The sorption and diffusion of n-alkanes, namely, hexane, heptane, and octane through crosslinked Ethylene-Propylene-Diene Monomer/ Poly(ethylene-co-vinyl acetate) (EPDM/EVA) blends has been examined in the temperature interval of 28-588C. Special reference has been given to the effects of blend composition, crosslinking systems, penetrant nature, and temperature on the liquid transport. The solvent uptake was found to decrease with increase in EVA content in the blends. The blends were crosslinked by three crosslinking systems namely, sulfur, dicumyl peroxide (DCP), and a mixture consisting of sulfur and peroxide. The DCP crosslinked system exhibited the lowest solvent uptake. These observations have been correlated with the phase morphology of the blends using scanning electron micrographs. The values of the kinetic parameters of permeability and molar mass between crosslinks have been found to be complementary to the observations. The experimental diffusivity values have been compared with different theoretical models.

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Effect of polymer–clay interaction on solvent transport behavior of fluoroelastomer–clay nanocomposites and prediction of aspect ratio of nanoclay

Maiti

Bhowmick

2007

J of Applied Polymer Sci

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Diffusion and sorption of methyl ethyl ketone and tetrahydrofuran through fluoroelastomer-clay nanocomposites were investigated in the temperature range of 30-608C by swelling experiments. Slightly non-Fickian transport behavior was found for these nanocomposites, having variation of type of nanoclay and loading. Different transport parameters depend on the size and shape of the penetrant molecules. The results were used to study the effect of nanoclay on the solvent transport-properties of nanocomposites and their interactions with solvents. The diffusion coefficient of methyl ethyl ketone at 308C for neat rubber was 1.43 Â 10 À8 cm 2 s À1 , while those of the unmodified and the modified clay filled samples at 4 phr loading were 0.24 Â 10 À8 and 0.50 Â 10 À8 cm 2 s À1, respectively. At 8 and 16 phr loading of the unmodified clay, it was found to be 0.44 Â 10 À8 and 0.64 Â 10 À8 cm 2 s À1 , respectively. The samples were also reswelled after deswelling. Surprisingly, transport behavior became Fickian on reswelling. Interestingly, ratio of diffusion coefficients of the filled system to the neat system was found to be almost same for the first time swelling and reswelling experiments. The results showed that better polymer-clay interaction in the case of the unmodified-clay filled nanocomposites is responsible for enhanced solvent-resistance property. From the permeation data, for the first time, aspect ratio of nanoclays in different composites was calculated and found to have good correlation with the morphology data obtained from transmission electron microscopy.

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Barrier properties of electron-beam-modified EPDM rubber

Cited by 11 publications

References 20 publications

Nanocomposites Based on Thermoplastic Elastomeric Blends of Styrene Acrylonitrile and Ethylene Vinyl Acetate: Effect of Nature and Loading of Nanoclays and Dynamic Vulcanization

Nanocomposites Based on Thermoplastic Elastomeric Blends of Styrene Acrylonitrile and Ethylene Vinyl Acetate: Effect of Nature and Loading of Nanoclays and Dynamic Vulcanization

Aliphatic Liquid Transport through Heterogeneous Ethylene—Propylene— Diene Monomer Rubber/Poly (ethylene-co-vinyl acetate) Blends

Effect of polymer–clay interaction on solvent transport behavior of fluoroelastomer–clay nanocomposites and prediction of aspect ratio of nanoclay

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