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Authors
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Schröder, A. ; Klüppel, M. ; Schuster, R.H.
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Title
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Characterisation of surface activity of carbon black and its relation to polymer-filler interaction
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Date
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03.07.2007
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Number
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1002
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Abstract
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The surface activity of commercial and experimental carbon blacks varying in particle size and primary aggregate structure was investigated with regard to surface roughness and energetic surface structure of primary particles. The energetic surface structure was described by the site energy distribution function f(Q), which was determined mainly from the gas adsorption isotherms of ethene. It was found that the surface of carbon black was energetically very heterogeneous. It consisted of at least four different adsorption sites (I: Q ? 16 kJ· mol-1; II: Q ? 20 kJ mol-1; III: Q ?w 25 kJ mol-1; IV: Q ? 30 kJ mol-1). The fraction of the sites I-IV depended on the production process of the carbon black grades and the particle size. For the furnace blacks, the fraction of high-energy sites decreased significantly with particle size and disappeared almost completely during graphitisation. This indicates that the reinforcing potential of carbon black is closely related to the amount of highly energetic sites that can be well quantified by the applied gas adsorption technique. The surface roughness was characterised by the surface fractal dimension, Ds, which was determined by two different techniques: the yardstick-method and the extended Frenkel-Halsey-Hill-theory (fractal FHH-theory). It is found that the furnace blacks have an almost equal roughness with a surface fractal dimension of Ds ? 2.6 beyond a length scale z ? 6 nm. This result is shown to be in fair agreement with analytical models and computer simulations of surface growth of carbon black in a furnace reactor.
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Publisher
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Macromolecular Materials and Engineering
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Wikidata
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Citation
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Macromolecular Materials and Engineering 292 (2007) 885-916
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DOI
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https://doi.org/10.1002/mame.200700032
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Tags
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FOR 597
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FOR 597 - TP1
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