Characterization of asphalt binders mixed with epoxy terminated ethylene terpolymer

Y. J. Lee, L. M. France, M. C. Hawley

    Research output: ResearchConference contribution

    • 4 Citations

    Abstract

    Epoxy terminated ethylene terpolymer modified asphalt binders have been studied in order to determine the suitability of the use of the binders and mixers for specific paving applications. Both unmodified and polymer modified binders were evaluated using Strategic Highway Research Program (SHRP). This study showed that (1) rheological properties were enhanced upon reaction of polymers with asphalt binders, especially at high temperatures; (2) the softening points of a binder increased with polymer content and asphalt grade; and (3) there was an optimum level of polymer modification for an effective enhancement of rheological properties of an asphalt binder as well as an optimum extent of cure in the blend.

    LanguageEnglish (US)
    Title of host publicationPolymeric Materials Science and Engineering, Proceedings of the ACS Division of Polymeric Materials Science and Engineering
    Editors Anon
    PublisherACS
    Pages397-398
    Number of pages2
    Volume76
    StatePublished - 1997
    EventProceedings of the 1997 Spring ACS Meeting - San Francisco, CA, USA
    Duration: Apr 13 1997Apr 17 1997

    Other

    OtherProceedings of the 1997 Spring ACS Meeting
    CitySan Francisco, CA, USA
    Period4/13/974/17/97

    Profile

    asphalt
    Terpolymers
    Binders
    ethylene
    Asphalt
    Ethylene
    Polymers
    Temperature

    ASJC Scopus subject areas

    • Chemical Engineering (miscellaneous)
    • Polymers and Plastics

    Cite this

    Lee, Y. J., France, L. M., & Hawley, M. C. (1997). Characterization of asphalt binders mixed with epoxy terminated ethylene terpolymer. In Anon (Ed.), Polymeric Materials Science and Engineering, Proceedings of the ACS Division of Polymeric Materials Science and Engineering (Vol. 76, pp. 397-398). ACS.

    Characterization of asphalt binders mixed with epoxy terminated ethylene terpolymer. / Lee, Y. J.; France, L. M.; Hawley, M. C.

    Polymeric Materials Science and Engineering, Proceedings of the ACS Division of Polymeric Materials Science and Engineering. ed. / Anon. Vol. 76 ACS, 1997. p. 397-398.

    Research output: ResearchConference contribution

    Lee, YJ, France, LM & Hawley, MC 1997, Characterization of asphalt binders mixed with epoxy terminated ethylene terpolymer. in Anon (ed.), Polymeric Materials Science and Engineering, Proceedings of the ACS Division of Polymeric Materials Science and Engineering. vol. 76, ACS, pp. 397-398, Proceedings of the 1997 Spring ACS Meeting, San Francisco, CA, USA, 4/13/97.
    Lee YJ, France LM, Hawley MC. Characterization of asphalt binders mixed with epoxy terminated ethylene terpolymer. In Anon, editor, Polymeric Materials Science and Engineering, Proceedings of the ACS Division of Polymeric Materials Science and Engineering. Vol. 76. ACS. 1997. p. 397-398.
    Lee, Y. J. ; France, L. M. ; Hawley, M. C./ Characterization of asphalt binders mixed with epoxy terminated ethylene terpolymer. Polymeric Materials Science and Engineering, Proceedings of the ACS Division of Polymeric Materials Science and Engineering. editor / Anon. Vol. 76 ACS, 1997. pp. 397-398
    @inbook{43a066465d6b430cbbab52650140fe8b,
    title = "Characterization of asphalt binders mixed with epoxy terminated ethylene terpolymer",
    abstract = "Epoxy terminated ethylene terpolymer modified asphalt binders have been studied in order to determine the suitability of the use of the binders and mixers for specific paving applications. Both unmodified and polymer modified binders were evaluated using Strategic Highway Research Program (SHRP). This study showed that (1) rheological properties were enhanced upon reaction of polymers with asphalt binders, especially at high temperatures; (2) the softening points of a binder increased with polymer content and asphalt grade; and (3) there was an optimum level of polymer modification for an effective enhancement of rheological properties of an asphalt binder as well as an optimum extent of cure in the blend.",
    author = "Lee, {Y. J.} and France, {L. M.} and Hawley, {M. C.}",
    year = "1997",
    volume = "76",
    pages = "397--398",
    editor = "Anon",
    booktitle = "Polymeric Materials Science and Engineering, Proceedings of the ACS Division of Polymeric Materials Science and Engineering",
    publisher = "ACS",

    }

    TY - CHAP

    T1 - Characterization of asphalt binders mixed with epoxy terminated ethylene terpolymer

    AU - Lee,Y. J.

    AU - France,L. M.

    AU - Hawley,M. C.

    PY - 1997

    Y1 - 1997

    N2 - Epoxy terminated ethylene terpolymer modified asphalt binders have been studied in order to determine the suitability of the use of the binders and mixers for specific paving applications. Both unmodified and polymer modified binders were evaluated using Strategic Highway Research Program (SHRP). This study showed that (1) rheological properties were enhanced upon reaction of polymers with asphalt binders, especially at high temperatures; (2) the softening points of a binder increased with polymer content and asphalt grade; and (3) there was an optimum level of polymer modification for an effective enhancement of rheological properties of an asphalt binder as well as an optimum extent of cure in the blend.

    AB - Epoxy terminated ethylene terpolymer modified asphalt binders have been studied in order to determine the suitability of the use of the binders and mixers for specific paving applications. Both unmodified and polymer modified binders were evaluated using Strategic Highway Research Program (SHRP). This study showed that (1) rheological properties were enhanced upon reaction of polymers with asphalt binders, especially at high temperatures; (2) the softening points of a binder increased with polymer content and asphalt grade; and (3) there was an optimum level of polymer modification for an effective enhancement of rheological properties of an asphalt binder as well as an optimum extent of cure in the blend.

    UR - http://www.scopus.com/inward/record.url?scp=0030643042&partnerID=8YFLogxK

    UR - http://www.scopus.com/inward/citedby.url?scp=0030643042&partnerID=8YFLogxK

    M3 - Conference contribution

    VL - 76

    SP - 397

    EP - 398

    BT - Polymeric Materials Science and Engineering, Proceedings of the ACS Division of Polymeric Materials Science and Engineering

    PB - ACS

    ER -