Efficient one-step melt-compounding of copolyetheramide/pristine clay nanocomposites using water-injection as intercalating/exfoliating aid

Touchaleaume, F.;Soulestin, Jeremie;Sclavons, Michel;Devaux, Jacques;Krawczak, P.;et.al.
(2011) Express Polymer Letters — Vol. 5, n° 12, p. 1085-1101 (2011)

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Authors
  • Touchaleaume, F.
    Author
  • Soulestin, JeremieEcole des Mines - Douai - France
    Author
  • Sclavons, MichelUCLouvain
    Author
  • Devaux, JacquesUCLouvain
    Author
  • Cordenier, FrançoisUCLouvain
    Author
  • Author
  • Krawczak, P.Ecole des mines - Douai - France
    Author
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Abstract
Polyether-block-amide (PEBA) /clay nanocomposites were prepared water-assisted by twin-screw extrusion. Both organomodified and pristine (i.e. purified but non-modified) montmorillonite clays were used. A high-pressure differential scanning calorimetry analysis carried out in the processing conditions demonstrated that PEBA/water blend exhibits some miscibility and that amide blocks and water behave as a single phase. In addition to a significant decrease of the melting temperature, water injected into the melt plays a key role among the filler dispersion and prevents the matrix from degradation during melt-extrusion. This process enables the compounding of pristine clay-based nanocomposites whose dispersion state is high enough for the resulting mechanical performances in tension to be at least equivalent to what is reached with organomodified clay. Effects of the nanofiller dispersion onto the macromolecules’ mobility are detailed and fracture mechanisms are identified for the various structures.
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Citations

Touchaleaume, F., Soulestin, J., Sclavons, M., Devaux, J., Cordenier, F., Van Velthem, P., Flat, J. J., Lacrampe, F. F., & Krawczak, P. (2011). Efficient one-step melt-compounding of copolyetheramide/pristine clay nanocomposites using water-injection as intercalating/exfoliating aid. Express Polymer Letters, 5(12), 1085-1101. https://doi.org/10.3144/expresspolymlett.2011.106 (Original work published 2011)