Nitrile rubber and carboxylated nitrile rubber resistance to soybean biodiesel

Linhares, Felipe N.; Gabriel, Cléverson Fernandes Senra; Sousa, Atos Alves de; Leite, Márcia Christina Amorim Moreira; Furtado, Cristina R. G.

doi:10.1590/0104-1428.09816

Cited by 7 publications

(2 citation statements)

References 23 publications

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“…(c)], demonstrating that the extracted samples do not display a significantly noticeable stress softening. Our hysteresis results exhibit similar behavior to elastomers (e.g., natural rubber) swollen in solvents (e.g., biodiesel) for industrial applications, and are potentially useful for implementing softer commercial silicones for bioinspired adhesives, synthetic biomaterials, and soft devices.…”

Section: Resultsmentioning

confidence: 57%

Extracting uncrosslinked material from low modulus sylgard 184 and the effect on mechanical properties

Glover

McLaughlin

McFarland

et al. 2020

Journal of Polymer Science

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Commercial silicone elastomers are commonly used in soft materials research due to their easily tunable mechanical properties.However, conventional polydimethylsiloxane (PDMS) elastomers with moduli below $100 kPa contain uncrosslinked free molecules, which play a significant role in their behavior. To utilize these materials, it is important to quantify what role these free molecules play in the mechanical response before and after their removal. We present a simple and inexpensive extraction method that enables the removal of free molecules from a lightly crosslinked sheet of Sylgard 184, a commercially available PDMS elastomer. The materials can contain a majority of free molecules yet maintain a thin and flat geometry without fractures after extraction. Subsequently, we compare the modulus, maximum stretchability, and hysteresis behavior with mixing ratios ranging from 60:1 to 30:1, before and after extraction. We show that the modulus, maximum stretchability, and dissipation increase upon extraction. Moreover, our approach offers a route to prepare crosslinked silicone elastomers with a modulus as low as $20 kPa without free molecules from a commercially available kit.

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Section: Resultsmentioning

confidence: 57%

Extracting uncrosslinked material from low modulus sylgard 184 and the effect on mechanical properties

Glover

McLaughlin

McFarland

et al. 2020

Journal of Polymer Science

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show abstract

“…Although the compatibility of fuel with the materials used in a fuel supply system is always a key issue, the source literature does not contain many publications in the field of synthetic fuel's impact on the elastomers used in the automotive industry (GTL [33] and HVO [34]). Most publications address the impact of fuels with a FAME additive [35][36][37][38][39]. Their authors select fossil fuel blends with methyl esters obtained from various raw materials, which are then exposed to selected rubbers.…”

Section: Introductionmentioning

confidence: 99%

Compatibility of Different Automotive Elastomers in Paraffinic Diesel Fuel

et al. 2021

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The introduction of new fuels to power internal combustion engines requires testing the compatibility of such fuels with materials commonly used in fuel supply systems. This paper investigates the influence of alternative fuels on the acrylonitrile-butadiene rubber and fluoroelastomer used in the automotive industry. In the study, conventional diesel fuel, its blend with 7% of fatty acid methyl esters and paraffinic diesel fuel produced with the Fisher Tropsch synthesis from natural gas were interacted with the elastomers. The immersion tests were carried out at room temperature (20 °C) for 168 h. The effect was evaluated based on changes in the selected rubber’s volume, mass and hardness. It has been confirmed that the synthetic component without aromatic hydrocarbons had a different effect on the tested rubber than did conventional fuel. In follow-up work, the selected rubbers were also subjected to microscopic observation. The most frequently observed effect was the washing out of the seal protective layer.

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Impact of WS2 Nanoparticles on Nitrile Butadiene Rubber Properties

Wang

Zheng

et al. 2020

Fibers Polym

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Nitrile rubber and carboxylated nitrile rubber resistance to soybean biodiesel

Cited by 7 publications

References 23 publications

Extracting uncrosslinked material from low modulus sylgard 184 and the effect on mechanical properties

Extracting uncrosslinked material from low modulus sylgard 184 and the effect on mechanical properties

Compatibility of Different Automotive Elastomers in Paraffinic Diesel Fuel

Impact of WS2 Nanoparticles on Nitrile Butadiene Rubber Properties

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