Verstärkungsmechanismen von Füllstoff-Hybridsystemen auf der Basis von nanoskaligen Kautschukpartikeln und Silica

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Authors

  • Minghan Xu
  • Ulrich Giese
  • Thomas Frueh
  • Werner Obrecht

Research Organisations

External Research Organisations

  • German Institute of Rubber Technology (DIK e.V.)
  • Arlanxeo Deutschland GmbH
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Details

Translated title of the contributionReinforcing Mechanisms of Filler hybrid Systems based on Nanoscale Rubber Particles and Silica
Original languageGerman
Pages (from-to)48-57
Number of pages10
JournalKGK Kautschuk Gummi Kunststoffe
Volume75
Issue number5
Publication statusPublished - 2022

Abstract

The influence of hydroxyl modified nanoscale rubber particles (Nanoprene) on the properties of silica loaded unvulcanizated and vulcanized rubber compounds was evaluated. It was found that in unvulcanized compounds filler flocculation was reduced by either silanization or by the addition of Nanoprene. The reduction of filler flocculation was most pronounced when the silica compound contained Nanoprene and was also silanized. The good filler dispersion, which was achieved by the combination of both measures, was preserved during and after vulcanization. This was confirmed by stress/strain tests, by dynamic measurements and also by TEM. As the silanization of the hydroxyl groups present in Nanoprene occurred at a significantly lower rate than the silanization of the silanol groups of silica it can be concluded that the improvement of silica dispersion is due to unsilanized Nanoprene.

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Verstärkungsmechanismen von Füllstoff-Hybridsystemen auf der Basis von nanoskaligen Kautschukpartikeln und Silica. / Xu, Minghan; Giese, Ulrich; Frueh, Thomas et al.
In: KGK Kautschuk Gummi Kunststoffe, Vol. 75, No. 5, 2022, p. 48-57.

Research output: Contribution to journalArticleResearchpeer review

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abstract = "The influence of hydroxyl modified nanoscale rubber particles (Nanoprene) on the properties of silica loaded unvulcanizated and vulcanized rubber compounds was evaluated. It was found that in unvulcanized compounds filler flocculation was reduced by either silanization or by the addition of Nanoprene. The reduction of filler flocculation was most pronounced when the silica compound contained Nanoprene and was also silanized. The good filler dispersion, which was achieved by the combination of both measures, was preserved during and after vulcanization. This was confirmed by stress/strain tests, by dynamic measurements and also by TEM. As the silanization of the hydroxyl groups present in Nanoprene occurred at a significantly lower rate than the silanization of the silanol groups of silica it can be concluded that the improvement of silica dispersion is due to unsilanized Nanoprene.",
keywords = "Model fuels, Polyoxymethylene, Raman spectroscopy, Swelling",
author = "Minghan Xu and Ulrich Giese and Thomas Frueh and Werner Obrecht",
note = "Funding Information: Financial support by Arlanxeo Deutsch land is gratefully acknowledged. The authors also thank Mr. J. Hamann/DIK for preparing the rubber mixtures and Mrs. G. Schwerdt/DIK for the TEM mi crographs. ",
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Download

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T1 - Verstärkungsmechanismen von Füllstoff-Hybridsystemen auf der Basis von nanoskaligen Kautschukpartikeln und Silica

AU - Xu, Minghan

AU - Giese, Ulrich

AU - Frueh, Thomas

AU - Obrecht, Werner

N1 - Funding Information: Financial support by Arlanxeo Deutsch land is gratefully acknowledged. The authors also thank Mr. J. Hamann/DIK for preparing the rubber mixtures and Mrs. G. Schwerdt/DIK for the TEM mi crographs.

PY - 2022

Y1 - 2022

N2 - The influence of hydroxyl modified nanoscale rubber particles (Nanoprene) on the properties of silica loaded unvulcanizated and vulcanized rubber compounds was evaluated. It was found that in unvulcanized compounds filler flocculation was reduced by either silanization or by the addition of Nanoprene. The reduction of filler flocculation was most pronounced when the silica compound contained Nanoprene and was also silanized. The good filler dispersion, which was achieved by the combination of both measures, was preserved during and after vulcanization. This was confirmed by stress/strain tests, by dynamic measurements and also by TEM. As the silanization of the hydroxyl groups present in Nanoprene occurred at a significantly lower rate than the silanization of the silanol groups of silica it can be concluded that the improvement of silica dispersion is due to unsilanized Nanoprene.

AB - The influence of hydroxyl modified nanoscale rubber particles (Nanoprene) on the properties of silica loaded unvulcanizated and vulcanized rubber compounds was evaluated. It was found that in unvulcanized compounds filler flocculation was reduced by either silanization or by the addition of Nanoprene. The reduction of filler flocculation was most pronounced when the silica compound contained Nanoprene and was also silanized. The good filler dispersion, which was achieved by the combination of both measures, was preserved during and after vulcanization. This was confirmed by stress/strain tests, by dynamic measurements and also by TEM. As the silanization of the hydroxyl groups present in Nanoprene occurred at a significantly lower rate than the silanization of the silanol groups of silica it can be concluded that the improvement of silica dispersion is due to unsilanized Nanoprene.

KW - Model fuels

KW - Polyoxymethylene

KW - Raman spectroscopy

KW - Swelling

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M3 - Artikel

AN - SCOPUS:85162231644

VL - 75

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JO - KGK Kautschuk Gummi Kunststoffe

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