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      KCI등재 SCIE SCOPUS

      Effect of Hydrated Lime on Dynamic Modulus of Asphalt-Aggregate Mixtures in the State of North Carolina

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      https://www.riss.kr/link?id=A104780209

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      다국어 초록 (Multilingual Abstract)

      A comprehensive experimental study has been conducted primarily to characterize the effect of hydrated lime on a dynamic modulus of Hot Mix Asphalt (HMA). In this paper, five Superpave HMAs typically used in the State of North Carolina were modified w...

      A comprehensive experimental study has been conducted primarily to characterize the effect of hydrated lime on a dynamic modulus of Hot Mix Asphalt (HMA). In this paper, five Superpave HMAs typically used in the State of North Carolina were modified with hydrated lime and evaluated with a series of uniaxial compressive complex modulus tests. And a new design method was proposed for lime modified HMAs based on their volumetric optimums. For a 9.5 mm surface mixture, three levels of lime addition methods were tested and their impacts on a dynamic modulus and phase angle were statistically analyzed. Finally, a resistance of lime modified HMA to moisture damage was demonstrated by comparing with unmodified HMA. Findings suggested that the inclusion of hydrated lime should make HMAs stiff especially at high frequencies and lower temperatures. The reduction of dynamic modulus due to moisture was smaller in lime modified HMAs than in un-modified HMA.

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      참고문헌 (Reference)

      1 Youngguk Seo, "Using Acoustic Emission to Monitor Fatigue Damage and Healing in Asphalt Concrete" 대한토목학회 12 (12): 237-243, 2008

      2 Little, D. N, "Unique effects of hydrated lime filler on the performance-related properties of asphalt cements: physical and chemical interactions revisited"

      3 Chehab, G, "Time-temperature superposition principle for asphalt concrete mixtures with growing damage in tension state" 71 : 559-593, 2002

      4 Cragg, R, "The dynamic stiffness of bituminous road materials" 40 : 126-147, 1971

      5 Bohn, A. O, "The dynamic modulus of asphalt concrete surfaces" 47 : 1970

      6 Akhter, G. F, "Sensitivity of flexible pavement performance to bituminous mix properties"

      7 Witczak, M. W, "Revised predictive model for dynamic (complex) modulus of asphalt mixtures"

      8 Yeager, L. L, "Recommended procedure for determining the dynamic modulus of asphalt mixtures"

      9 Mohammad, L. N, "Permanent deformation analysis of hot-mix asphalt mixtures using simple performance tests and 2002 mechanisticempirical pavement design software" Transportation Research Board 2006

      10 Kim, Y. R, "Mechanistic evaluation of mineral fillers on fatigue resistance and fundamental material characteristics. Proc"

      1 Youngguk Seo, "Using Acoustic Emission to Monitor Fatigue Damage and Healing in Asphalt Concrete" 대한토목학회 12 (12): 237-243, 2008

      2 Little, D. N, "Unique effects of hydrated lime filler on the performance-related properties of asphalt cements: physical and chemical interactions revisited"

      3 Chehab, G, "Time-temperature superposition principle for asphalt concrete mixtures with growing damage in tension state" 71 : 559-593, 2002

      4 Cragg, R, "The dynamic stiffness of bituminous road materials" 40 : 126-147, 1971

      5 Bohn, A. O, "The dynamic modulus of asphalt concrete surfaces" 47 : 1970

      6 Akhter, G. F, "Sensitivity of flexible pavement performance to bituminous mix properties"

      7 Witczak, M. W, "Revised predictive model for dynamic (complex) modulus of asphalt mixtures"

      8 Yeager, L. L, "Recommended procedure for determining the dynamic modulus of asphalt mixtures"

      9 Mohammad, L. N, "Permanent deformation analysis of hot-mix asphalt mixtures using simple performance tests and 2002 mechanisticempirical pavement design software" Transportation Research Board 2006

      10 Kim, Y. R, "Mechanistic evaluation of mineral fillers on fatigue resistance and fundamental material characteristics. Proc"

      11 Mohammad, L, "Mechanistic evaluation of hydrated lime in hot-mix asphalt mixtures"

      12 Anderson, D. A, "Mechanical behavior and reinforcement of mineral filler-asphalt mixtures" 42 : 37-66, 1973

      13 Petersen, J. C, "Lime treatment of asphalt, Final Report Prepared for the National lime Association"

      14 Petersen, J. C, "Lime treatment of asphalt to reduce age hardening and improve flow properties" 56 : 632-653, 1987

      15 Pellinen, T. K, "Investigation of the use of dynamic modulus as an indicator of hot-mix asphalt performance" Arizona State University 2001

      16 Quing, L, "Inclusion of moisture effect in fatigue test for asphalt pavement" 2007

      17 Kim, Y. R, "Implementation plan for the new mechanistic-empirical pavement design guide, Final Report to the North Carolina Department of Transportation" 2007

      18 Shook, J. F, "Factors influencing dynamic modulus of asphalt concrete" 38 : 140-178, 1969

      19 Majidzadeh, K. S, "Evaluation of permanent deformation in asphalt concrete pavements"

      20 McCann, M, "Evaluation of moisture sensitivity and performance of lime in hot-mix asphalt: Resilient modulus, tensile strength and simple shear tests"

      21 Sebaaly, P. E, "Effectiveness of lime in hot-mix asphalt pavements"

      22 Kim, Y. R, "Dynamic modulus testing of asphalt concrete indirect tension mode" 163-173, 2004

      23 Kallas, B. F, "Dynamic modulus of asphalt concrete in tension and tension-compression" 39 : 1-23, 1970

      24 Witczak, M. W, "Development of a master curve (E*) database for lime modified asphalt mixtures"

      25 "-62 standard method of test for determining dynamic modulus of hot-mix asphalt concrete mixtures"

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
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      2002-01-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.59 0.12 0.49
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.42 0.39 0.286 0.06
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