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    Multiple Stress–Creep–Recovery Behavior and High-Temperature Performance of Styrene Butadiene Styrene and Polyacrylonitrile Fiber–Modified Asphalt Binders

    Source: Journal of Materials in Civil Engineering:;2019:;Volume ( 031 ):;issue: 006
    Author:
    M. A. Dalhat
    ,
    Khaleel Al-Adham
    ,
    H. I. Al-Abdul Wahhab
    DOI: 10.1061/(ASCE)MT.1943-5533.0002718
    Publisher: American Society of Civil Engineers
    Abstract: Asphalt binders and concretes modified with polyacrylonitrile (PAN) fiber, styrene butadiene styrene (SBS), and the combination of PAN-SBS were prepared and studied. Both frequency and temperature sweep tests for the binder dynamic shear modulus G*, rutting, and fatigue parameters were carried out. Multiple stress creep recovery (MSCR) test was also conducted on the various modified asphalt binders. The complex modulus E* and flow number (FN) of asphalt concretes (AC) from the modified binders were also examined using asphalt mixture performance tester (AMPT) test. The PAN fiber asphalt binder showed better response in terms of dynamic modulus, fatigue and rutting parameter, nonrecoverable creep compliance and percent strain recovery at 1% fiber content. The hybrid binder (1%PAN+1%SBS) demonstrated overall shear modulus almost twice that exhibited by 2%SBS binder. The hybrid asphalt binder showed the greatest potential for rut resistance, over most of the frequency range, relative to all other binders. It was clear that the combined form of the polymer and the fiber modification has greater rutting resistance potential than the single modification approach generally practiced. The hybrid asphalt binder also showed better fatigue parameter than all the binders within pavement design load frequency range. Results from the AC mix tests verified most of the trends observed from the asphalt binder tests.
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      Multiple Stress–Creep–Recovery Behavior and High-Temperature Performance of Styrene Butadiene Styrene and Polyacrylonitrile Fiber–Modified Asphalt Binders

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    http://yetl.yabesh.ir/yetl1/handle/yetl/4259825
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    contributor authorM. A. Dalhat
    contributor authorKhaleel Al-Adham
    contributor authorH. I. Al-Abdul Wahhab
    date accessioned2019-09-18T10:39:04Z
    date available2019-09-18T10:39:04Z
    date issued2019
    identifier other%28ASCE%29MT.1943-5533.0002718.pdf
    identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4259825
    description abstractAsphalt binders and concretes modified with polyacrylonitrile (PAN) fiber, styrene butadiene styrene (SBS), and the combination of PAN-SBS were prepared and studied. Both frequency and temperature sweep tests for the binder dynamic shear modulus G*, rutting, and fatigue parameters were carried out. Multiple stress creep recovery (MSCR) test was also conducted on the various modified asphalt binders. The complex modulus E* and flow number (FN) of asphalt concretes (AC) from the modified binders were also examined using asphalt mixture performance tester (AMPT) test. The PAN fiber asphalt binder showed better response in terms of dynamic modulus, fatigue and rutting parameter, nonrecoverable creep compliance and percent strain recovery at 1% fiber content. The hybrid binder (1%PAN+1%SBS) demonstrated overall shear modulus almost twice that exhibited by 2%SBS binder. The hybrid asphalt binder showed the greatest potential for rut resistance, over most of the frequency range, relative to all other binders. It was clear that the combined form of the polymer and the fiber modification has greater rutting resistance potential than the single modification approach generally practiced. The hybrid asphalt binder also showed better fatigue parameter than all the binders within pavement design load frequency range. Results from the AC mix tests verified most of the trends observed from the asphalt binder tests.
    publisherAmerican Society of Civil Engineers
    titleMultiple Stress–Creep–Recovery Behavior and High-Temperature Performance of Styrene Butadiene Styrene and Polyacrylonitrile Fiber–Modified Asphalt Binders
    typeJournal Paper
    journal volume31
    journal issue6
    journal titleJournal of Materials in Civil Engineering
    identifier doi10.1061/(ASCE)MT.1943-5533.0002718
    page04019087
    treeJournal of Materials in Civil Engineering:;2019:;Volume ( 031 ):;issue: 006
    contenttypeFulltext
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