Autohesion Mechanisms at Interfaces Between Random Copolymer Melts: Mesoscopic Simulations with Realistic Coarse-Grained Models

Autohesion Mechanisms at Interfaces Between Random Copolymer Melts: Mesoscopic Simulations with Realistic Coarse-Grained Models

The increase in welding time during the interdiffusion of a pair of non reacting random copolymer melts favors the strength rate of healing at the interface. Furthermore, the diffusion kinetic during the interpenetration of copolymer chains across the interface is strongly dependent on molecular wei...

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Veröffentlicht in:Chemphyschem 2024-08, Vol.25 (16), p.e202400114
Hauptverfasser: Nkepsu Mbitou, R L, Goujon, F, Dequidt, A, Latour, B, Devémy, J, Martzel, N, Hauret, P, Malfreyt, P
Format: Artikel
Sprache:eng
Schlagworte:
Copolymers
Diffusion rate
Interdiffusion
Melts
Molecular chains
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Zusammenfassung:The increase in welding time during the interdiffusion of a pair of non reacting random copolymer melts favors the strength rate of healing at the interface. Furthermore, the diffusion kinetic during the interpenetration of copolymer chains across the interface is strongly dependent on molecular weight. In this paper we perform mesoscopic simulations with realistic coarse grain models to study the autohesion mechanism across the interface between slightly entangled styrene-butadiene random copolymer melts.
ISSN:1439-4235
1439-7641
1439-7641
DOI:10.1002/cphc.202400114