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    Viscosity Property of Methylene Diphenyl Diisocyanate Modified Asphalt Based on Molecular Dynamics Simulation

    New search for: Feng, Ponan
    New search for: Wang, Xingwang
    New search for: Shao, Linlong
    New search for: Wang, Hainian

    Methylene diphenyl diisocyanate (MDI), a common chemical raw material, can greatly improve the high-temperature performance of asphalt. The viscosity of MDI-modified asphalt needs further study. MDI-modified asphalt models were constructed and confined through a molecular dynamic simulation to investigate the effect of the macromolecules of the nucleophilic addition reaction on the modification. It was found that the viscosity of matrix asphalt changes little with the increase of temperature. MDI-modified asphalt with double pyrrole behaves similarly except that the shear viscosity of the latter was larger with increasing temperature. However, the two models containing asphaltene-phenol both showed higher viscosity-temperature sensitivity at temperatures of 368K-383K. Double phenol or phenol-pyrrole may play a role in increasing viscosity in MDI-modified asphalt.

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    Viscosity Property of Methylene Diphenyl Diisocyanate Modified Asphalt Based on Molecular Dynamics Simulation

    New search for: Feng, Ponan
    New search for: Wang, Xingwang
    New search for: Shao, Linlong
    New search for: Wang, Hainian

    Methylene diphenyl diisocyanate (MDI), a common chemical raw material, can greatly improve the high-temperature performance of asphalt. The viscosity of MDI-modified asphalt needs further study. MDI-modified asphalt models were constructed and confined through a molecular dynamic simulation to investigate the effect of the macromolecules of the nucleophilic addition reaction on the modification. It was found that the viscosity of matrix asphalt changes little with the increase of temperature. MDI-modified asphalt with double pyrrole behaves similarly except that the shear viscosity of the latter was larger with increasing temperature. However, the two models containing asphaltene-phenol both showed higher viscosity-temperature sensitivity at temperatures of 368K-383K. Double phenol or phenol-pyrrole may play a role in increasing viscosity in MDI-modified asphalt.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Viscosity Property of Methylene Diphenyl Diisocyanate Modified Asphalt Based on Molecular Dynamics Simulation

    New search for: Feng, Ponan
    New search for: Wang, Xingwang
    New search for: Shao, Linlong
    New search for: Wang, Hainian

    Methylene diphenyl diisocyanate (MDI), a common chemical raw material, can greatly improve the high-temperature performance of asphalt. The viscosity of MDI-modified asphalt needs further study. MDI-modified asphalt models were constructed and confined through a molecular dynamic simulation to investigate the effect of the macromolecules of the nucleophilic addition reaction on the modification. It was found that the viscosity of matrix asphalt changes little with the increase of temperature. MDI-modified asphalt with double pyrrole behaves similarly except that the shear viscosity of the latter was larger with increasing temperature. However, the two models containing asphaltene-phenol both showed higher viscosity-temperature sensitivity at temperatures of 368K-383K. Double phenol or phenol-pyrrole may play a role in increasing viscosity in MDI-modified asphalt.

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    Title:

    Viscosity Property of Methylene Diphenyl Diisocyanate Modified Asphalt Based on Molecular Dynamics Simulation

    Contributors:

    Feng, Ponan (author) / Wang, Xingwang (author) / Shao, Linlong (author) / Wang, Hainian (author)

    Conference:

    21st COTA International Conference of Transportation Professionals ; 2021 ; Xi’an, China

    Published in:

    CICTP 2021 ; 1657-1668

    Publication date:

    2021-12-14

    ISBN:

    9780784483565

    DOI:

    https://doi.org/10.1061/9780784483565.160

    Type of media:

    Conference paper

    Type of material:

    Electronic Resource

    Language:

    English

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