• Title/Summary/Keyword: NR/BR nanocomposites

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Mechanical Properties of Organoclay filled NR/BR Blends (Organoclay로 보강된 NR/BR Blends의 기계적 특성)

  • Kim, W.;Kim, S.K.;Kim, S.K.;Chuug, K.H.;Byun, J.Y.
    • Elastomers and Composites
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    • v.39 no.1
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    • pp.51-60
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    • 2004
  • The cure, viscoelastic and mechanical characteristics of organoclay filled NR/BR blends were studied and compared with the properties of carbon black and silica filled NR/BR blends. The nanocomposites with extensive exfoliation state can be fabricated by a solution mixing method. In the composites, the amount of filler content was fixed to 10 phr. Degree of intercalation and exfoliation was characterized by X-ray diffraction (XRD). XRD results indicated exfoliation of the silicate layers into the rubber matrix. While the degree or intercalation and exfoliation is lowered by the conventional mixing method, extensive exfoliation can be obtained by the solution mixing method. It was found that the clay filled NR/BR compound showed better viscoelastic (tan ${\delta}$) and mechanical properties than the carbon black or silica filled NR/BR compounds.

Structure and Properties of the Organoclay Filled NR/BR Nanocomposites

  • Kim Won-Ho;Kim Sang-Kwon;Kang Jong-Hyub;Choe Young-Sun;Chang Young-Wook
    • Macromolecular Research
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    • v.14 no.2
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    • pp.187-193
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    • 2006
  • Organoclay, was applied as a filler, in place of carbon black and silica, to a natural rubber (NR)/butadiene rubber (BR) blend. A compounding method was used to disperse and separate the layered silicates. The effect of a coupling agent on the vulcanizates was evaluated using both the silica and organoclay filled compounds. After the compounding processes were completed, the XRD diffraction peaks disappeared, but then reappeared after vulcanization. The scorch times for the organoclay-filled compounds were very short compared to those for carbon black and silica-filled compounds. The organoclay-filled compounds showed high values of tensile strength, modulus, tear energy, and elongation at the break. When ranked by viscosity, the compounds appeared in the following order: silica > silica (Si-69) > organoclay > organoclay (Si-69) > carbon black. Fractional hysteresis, tensile set, and wear rates were very consistent with the viscosity of the vulcanizates. The Si 69 coupling agent increased reversion resistance, the maximum torque values in the ODR, modulus, and wear resistance, but decreased elongation at the break, fractional hysteresis, and tension set of the vulcanizates.

Elastomer Nanocomposites(I) (엘라스토머 나노복합체(I))

  • Bang, Dae-Suk;Kye, Hyoung-San;Cho, Ur-Ryong;Min, Byung-Gak;Shin, Kyung-Chul
    • Elastomers and Composites
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    • v.44 no.1
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    • pp.22-33
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    • 2009
  • Recently, elastomer-nanocomposites reinforced with low volume fraction of nanofillers have attracted great interest due to their fascinating properties. The incorporation of nanofillers, such as, layered silicate clays, carbon nanotubes, nanofibers, calcium carbonate, metal oxides or silica nanoparticles into elastomers improves significantly their mechanical, thermal, dynamic mechanical, barrier properties, flame retardancy, etc. The properties of nanocomposites depend greatly on the chemistry of polymer matrices, nature of nanofillers, and the method in which they are prepared. The uniform dispersion of nanofillers in elastomer matrices is a general prerequisite for achieving desired mechanical and physical characteristics. In this paper, current developments in the field of elastomer nanocomposites reinforced with layered silicates, silica, carbon nanotubes, nanofibers and various other nanoparticles have been addressed.

Foaming Behavior, Structure, and Properties of Rubber Nanocomposites Foams Reinforced with Zinc Methacrylate (아연 메타아크릴레이트로 보강된 발포고무 나노복합체의 발포거동, 구조 및 특성)

  • Basuli, U.;Lee, G.B.;Jang, S.Y.;Oh, J.;Lee, J.H.;Kim, S.C.;Jeon, N.D.;Huh, Y.I.;Nah, C.
    • Elastomers and Composites
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    • v.47 no.4
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    • pp.297-309
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    • 2012
  • Different amounts of foaming agents were employed in natural rubber(NR)/butadiene rubber(BR) blends to understand the foaming behavior in presence of nano-reinforcing agent, zinc methacrylate (ZMA). The ZMA greatly improved most of the mechanical properties of the rubber foams, however it did not show considerable effect on the cell morphology, such as cell size, density and porosity. It was also observed that the foaming agent concentration affected all the mechanical parameters. When the content of foaming agent was increased, the number of foams was increased leading to a decrease in density of the compounds. But the size and distribution of foams remained unchanged with increased foaming agent. The effect of high styrene-butadiene rubber (HSBR) was also studied. The size of cells became smaller and the cell uniformity was improved with increasing HSBR. The foam rubber compounds showed much efficient energy absorbing capability at higher strains.