Devulcanization of Natural Rubber in Composites with Distinct Crosslink Densities by Twin-Screw Extruder

Barbosa, Rafael; Nunes, Anderson Thadeu; Ambrósio, José Donato

doi:10.1590/1980-5373-mr-2016-0956

Cited by 14 publications

(7 citation statements)

References 26 publications

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“…In both cases, the nanocomposites showed a good relationship between analyzed properties, with good linear regression determination coefficient ( R 2 ) values. These results show that the processing and vulcanization methods were well performed, without significant degradation, contamination, or unvulcanized rubber content, since this correlation follows the literature and the rubber elasticity theory 46,47 …”

Section: Resultssupporting

confidence: 81%

“…These results show that the processing and vulcanization methods were well performed, without significant degradation, contamination, or unvulcanized rubber content, since this correlation follows the literature and the rubber elasticity theory. 46,47 To observe the dynamic mechanical behavior of the nanocomposites, a cyclic tensile strain test was made in the filled samples dispersed by the two different sonication methods. Figure 5a shows the axial displacement behavior and axial force response at 1.5 Hz with strain ranging from 20% to 100% for the initial 10 cycles for the U1-B sample.…”

Section: Mechanical Propertiesmentioning

confidence: 99%

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Improving the swelling, mechanical, and electrical properties in natural rubber latex/carbon nanotubes nanocomposites: Effect of the sonication method

Barbosa

Gonçalves

Tozzi

et al. 2022

J of Applied Polymer Sci

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Conductive polymeric composites are exciting for future electronic applications given the possibility to ally electrical conductivity and flexibility. However, the high viscosity of plasticized elastomers difficult the dispersion of conductive fillers in an elastomeric matrix is difficult. This research aimed to compare the use of bath or probe sonication to disperse multi-walled carbon nanotubes (MWCNT) in the lower-viscosity natural rubber latex. The MWCNT concentration varied from 0.5 to 2.5 wt%, and the coagulated compounds were vulcanized after compounding in a two-roll mill. Nanocomposite's swelling behavior was determined by Flory-Rehner crosslink density and Kraus theory, indicating better dispersion in probe sonication, which also was conducted in lesser time and applied lower energy than bath sonication. This result is evidenced through tensile strength and hardness tests, as the better MWCNT dispersion improved the reinforcement due to greater filler-matrix interaction. The electrical response was obtained by impedance spectroscopy, with higher conductivities also found in tip-sonicated samples.In addition, cyclic strain fatigue test was realized from 20% to 100% strain during 20,000 cycles with simultaneous impedance measurement, reinforcing the better distribution of MWCNT in the probe-sonicated nanocomposites with higher tensile stress (Payne's effect) and conductivity retention than bath sonicated.

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Section: Resultssupporting

confidence: 81%

Section: Mechanical Propertiesmentioning

confidence: 99%

Improving the swelling, mechanical, and electrical properties in natural rubber latex/carbon nanotubes nanocomposites: Effect of the sonication method

Barbosa

Gonçalves

Tozzi

et al. 2022

J of Applied Polymer Sci

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“…Among different subcritical fluids (e.g., water, ethanol, and propanol), the influence of subcritical ethanol is significantly obvious [27]. Thermoplastic polymers can also swell the crosslinking structures of rubbers [28]. Barbosa et al [28] added thermoplastic ethylene vinyl-acetate during rubber reclamation using an intermeshing co-rotating twin-screw extruder.…”

Section: Introductionmentioning

confidence: 99%

“…Thermoplastic polymers can also swell the crosslinking structures of rubbers [28]. Barbosa et al [28] added thermoplastic ethylene vinyl-acetate during rubber reclamation using an intermeshing co-rotating twin-screw extruder. The addition of the ethylene vinyl-acetate achieved effective devulcanization, evidenced in the increase of soluble fractions, reduction in crosslinking density, and thermal stability gain.…”

Section: Introductionmentioning

confidence: 99%

Low-Temperature Mechano-Chemical Rubber Reclamation Using Terpinene as a Swelling Agent to Enhance Bond-Breaking Selectivity

et al. 2021

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Common swelling agents used in the mechano-chemical rubber devulcanization process usually require high temperatures to achieve satisfactory swelling effects, which results in severe production of pollutants and reduces the selectivity of bond scissions. This work presents an environmentally friendly swelling agent, terpinene, which can swell the rubber crosslink structures at low temperatures. Both a rubber swelling experiment and a rubber reclaiming experiment with a mechano-chemical devulcanization method are conducted to explore the swelling effects of terpinene. After soaking in terpinene at 60 °C for 90 min, the length elongation of the rubber sample reaches 1.55, which is much higher than that in naphthenic oil and is comparable to that in toluene. When adding 3 phr of terpinene for every 100 phr of waste rubber during the reclaiming process, the bond scissions exhibit high selectivity. After revulcanization, the reclaimed rubbers have a tensile strength of 17 MPa and a breaking elongation of 400%. Consequently, the application of terpinene as the swelling agent in the LTMD method can greatly improve the properties of reclaimed rubbers, thereby enhancing the dual value for the economy and environment.

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“…The principle of this method is the shear stress application on the vulcanized rubber during extrusion, which may result in selective break of crosslinks due to the strength and directionality of employed tension. [7][8][9][10][11] The crosslinks break occurs when the shear stress reaches a certain level in which the shear force overcomes the energy force of the sulphur chemical bonds C-S-, -S-S-and -S-Sx-S-. However, the breaking of main chain bonds (C-C) may occur, being an undesirable effect which cause degradation and consequent loss of properties.…”

Section: Introductionmentioning

confidence: 99%

Characterization of waste tire rubber devulcanized in twin-screw extruder with thermoplastics

Nunes

Santos

Pereira

et al. 2018

Progress in Rubber, Plastics and Recycling Technology

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Waste tire rubber (WTR) supplied by a truck tire retreader were processed in an intermeshing co-rotating twin-screw extruder (ICTSE). The extrusion process evaluated the efficiency of the thermomechanical recycling in the devulcanization of WTR rubbers. Samples were prepared by varying the process parameters, the particles sizes and thermoplastics, and the latter was used as devulcanization auxiliary agents. After extrusion, samples were subjected to solvent extraction to determine the soluble fraction (SF). Subsequently, these SF were characterized by Fourier transform infrared (FTIR) spectroscopy, thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC). The highest SF (29 wt%) was obtained with higher screw rotating speed and with smaller particle size. Higher SF indicated a higher degree of devulcanization. The FTIR and DSC analyses showed that natural rubber was the main rubber extracted from extruded samples. In addition, polypropylene was more effective than low-density polyethylene in the devulcanization process, promoting higher SF.

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Devulcanization of Natural Rubber in Composites with Distinct Crosslink Densities by Twin-Screw Extruder

Cited by 14 publications

References 26 publications

Improving the swelling, mechanical, and electrical properties in natural rubber latex/carbon nanotubes nanocomposites: Effect of the sonication method

Improving the swelling, mechanical, and electrical properties in natural rubber latex/carbon nanotubes nanocomposites: Effect of the sonication method

Low-Temperature Mechano-Chemical Rubber Reclamation Using Terpinene as a Swelling Agent to Enhance Bond-Breaking Selectivity

Characterization of waste tire rubber devulcanized in twin-screw extruder with thermoplastics

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