Polyurethane/graphene oxide nanocomposite and its modified asphalt binder: Preparation, properties and molecular dynamics simulation

In this paper, reactive polyurethane and graphene oxide were used to prepare polyurethane/graphene oxide (PU/GO) nanocomposite, which were polymerized in situ and then were sheared at high-speed in asphalt. The uniform dispersion of nanocomposite modified asphalt system with PU and GO was obtained. The macroscopic properties and microscopic changes of modified asphalt binders were studied from the aspects of mechanics, physical structure and composition. The relationship between the structure and properties of modified asphalt system was discussed. The molecular models of base asphalt, polyurethane modified asphalt and PU/GO nanocomposite modified asphalt were built in Materials Studio, which were simulated by molecular dynamics. The structural changes under the interaction of each molecule were analyzed. The solubility parameters, mean square displacement, radial distribution function, radius of gyration and glass transition temperature of these models were calculated. The results show that GO is well dispersed in PU and polymer particles are more uniform. The polymer particles with GO achieve good dispersion in the asphalt system. Synergy effect of polymer and nano modification was realized in the dispersed modified asphalt material and properties were improved. (c) 2021 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

Automated summary

Reactive polyurethane and graphene oxide were used to prepare PU/GO nanocomposite, achieving uniform dispersion in asphalt. The macroscopic properties and microscopic changes of modified asphalt binders were studied, discussing the relationship between structure and properties. Synergy effect of polymer and nano modification improved the properties of the dispersed modified asphalt material.