Toluene diffusion in butyl rubber

Schneider, N. S.; Moseman, James A.; Sung, N. H.

doi:10.1002/polb.1994.090320310

Cited by 27 publications

(20 citation statements)

References 16 publications

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“…This simple theory has been tested and found to describe satisfactorily the diffusion of a number of organic liquids and vapours in polymer solutions 14. Recently, Schneider et al 15 have shown that the diffusion of toluene in butyl rubber follows the predictions of the Fujita's free‐volume theory 11. 13 It should be noted here that, in these studies, the free‐volume of the polymers was obtained through indirect methods.…”

Section: Introductionmentioning

confidence: 99%

Free-volume microprobe study of iodine diffusion in polymers

Ramani

Ranganathaiah

2001

Polym. Int.

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Section: Introductionmentioning

confidence: 99%

Free-volume microprobe study of iodine diffusion in polymers

Ramani

Ranganathaiah

2001

Polym. Int.

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“…Based on these results, we tried to fit the experimental results using Eq. (8). It showed us that Eq.…”

Section: Sorption Kineticsmentioning

confidence: 98%

“…The parameter A d depends mainly on the size of the diffusant while B d depends on the minimum volume required for the displacement of the diffusant. Since diffusion depends on the chemical structure of the polymer and the size of the diffusant molecules, understanding of the diffusion mechanism is usually done through the application of Fick's laws and its modified versions from which one can obtain information on the rate of diffusion and the polymer segmental relaxation [7,8].…”

Section: Introductionmentioning

confidence: 99%

Water Sorption Studies in a RGP Contact Lens Polymer Paraperm by Positron Lifetime Technique

Thimmegowda

Paladugu

Shariff

et al. 2002

phys. stat. sol. (a)

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“…The sorption isotherms showing mass-time curves are plotted in Fig. 1 for four different weight percents of sulphur indicated in the Figure. At the equilibrium mass values, the value of the network chain density was calculated for each sulfur concentration in the network via the modified Flory-Rehner equation [8,17].…”

Section: Swelling Measurementsmentioning

confidence: 99%

Effect of cross‐linking on the free volume properties of natural rubber

Jobando

Quarles

2007

Phys. Status Solidi (c)

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We used Positron Annihilation Lifetime Spectroscopy (PALS) to investigate the effect of cross-linking on the free volume properties of Natural Rubber (NR) composites. In order to form any meaningful product for industrial purposes, NR is mixed with different compounds, then cured in a process called vulcanization. One of the most important compounds used in the mixing process is sulfur. Sulfur forms cross-links with NR restricting the mobility of the polymer chains. Addition of sulfur and vulcanization reduce the oPs lifetime and intensity. By compating un-vulcanized and vulcanized samples we show that sulfur inhibits Ps formation and that with cross-link formation during vulcanization the o-Ps lifetime and intensity both decrease with increasing sulfur concentration. Swelling measurements were also done using toluene absorption to measure cross-link density as a function of sulfur concentration.1 Introduction Physical properties of natural rubber (NR) are improved by reinforcing it with fillers such as carbon black (CB), sulfur or silica. These fillers are mixed together with natural rubber and other additives then vulcanized [1]. During vulcanization, S-S and C-S cross-links are formed improving the mechanical and physical properties of NR. Previous studies by Positron Annihilation Lifetime Spectroscopy (PALS) have focused on the effect of carbon black in rubber [2][3][4][5][6]. The motivation has been to understand how CB loading affects the free volume holes existing in the rubber. Results found by an earlier group in this lab [5,13,14] shows that the free volume hole size in rubber is not affected by CB loading, however the number of the free volume holes was found to decrease. This observation is in good agreement with other authors. [2][3][4]6] Within this context of filler loading in the rubber, we previously [7], investigated the effect of sulfur concentrations in the vulcanized NR samples. We found that as the concentration of sulfur in the sample increases, both the size and the amount of free volume holes in the sample decrease. This we interpreted as the formation of cross-links between sulfur and polymer chains restricting the chain mobility, hence reducing the free volume spaces in the polymer. This was in good agreement with other authors who have also observed that the free volume of sulfur cured NR is dependent on the cross-link densities between sulfur and NR [8][9][10][11]. Hence, in this paper, we have tried to investigate this cross-linking effect further by extending our work to un-vulcanized NR samples.We use PALS and equilibrium swelling methods with a view to understanding the nature and distribution of local free volume and its correlation with the degree of cross-linking. PALS has been extensively used in the study of free volume in amorphous polymers [12][13][14][15][16]. The basis for this technique lies in the fact that the pickoff lifetime τ 3 of ortho-positronium (o-Ps) is sensitive to its local molecular environment and in particular, increases or decreases with size of the free-...

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Toluene diffusion in butyl rubber

Cited by 27 publications

References 16 publications

Free-volume microprobe study of iodine diffusion in polymers

Free-volume microprobe study of iodine diffusion in polymers

Water Sorption Studies in a RGP Contact Lens Polymer Paraperm by Positron Lifetime Technique

Effect of cross‐linking on the free volume properties of natural rubber

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