연구동향 분석

Effect of Double Recycled Reclaimed Asphalt Pavement (DRRAP) on Low-temperature Performance of Asphalt Mixture

문기훈 권오선 조문진 Augusto Cannone Falchetto 2018년

논문상세정보
인용/피인용

' Effect of Double Recycled Reclaimed Asphalt Pavement (DRRAP) on Low-temperature Performance of Asphalt Mixture' 의 참고문헌

  • Using Recycled Asphalt Materials as an Alternative Material Source in Asphalt Pavements
    문기훈 [2014]
  • Use of recycled construction and demolition waste (CDW) aggregates: a sustainable alternative for the pavement construction industry
    Ossa, A. [2016]
  • The effect of incorporating reclaimed asphalt pavement on the performance of hot mix asphalt mixtures
  • Standard specication for performancegraded asphalt binder
  • Standard Practice for Determining Low-Temperature Performance Grade (PG) of Asphalt Binders
  • Single-event cracking temperature of asphalt pavements directly from bending beam rheometer data
    Shenoy, A. [2002]
  • Simulating repeated recycling of hot mix asphalt
    Hugener, M. [2017]
  • Particle clustering phenomena in hot asphalt mixtures with high content of reclaimed asphalt pavements
    Bressi, S. [2015]
  • On Creep and Relaxation
  • Multidisciplinary approach to the environmental impact of steel slag reused in road construction
    Barisic, I. [2017]
  • Microstructural and rheological investigation on the use of recycled asphalt material in asphalt mixtures at low temperature
  • Low temperature rheological properties of asphalt mixtures containing different recycled asphalt materials
    Moon, K. H. [2017]
  • Laboratory investigation of possibility of re-recycling asphalt concretes
    Su, K. [2008]
  • Investigation on the combined recycling of reclaimed asphalt pavement and steel slag in asphalt mixture at low temperature
  • Investigation of deterioration of recycled hot mixed asphalt concrete pavement and a trial re-recycling of asphalt concrete
  • Interaction between New and Age-hardened Binders in Asphalt Mixes Containing High Quantities of Reclaimed Asphalt Pavement and Reclaimed Asphalt Shingles
    He, Y. [2016]
  • Harvesting the unexplored potential of European waste materials for road construction
  • Experimental investigation of asphalt mixture containing Linz-Donawitz steel slag
  • Effect of the constituents (asphalt, clay materials, floating particles and fines) of construction and demolition waste on the properties of recycled concretes
    Medina, C. [2015]
  • Effect of the Repeated Recycling on Hot Mix Asphalt Properties
    Heneash, U. [2013]
  • Disposal and recycling of organic and polymeric construction materials
    Ohama Y. [2004]
  • Development of asimple test to determine the low temperature creep compliance of asphalt mixtures
  • Determining the Flexural Creep Stiffness of Asphalt Binder Using the Bending Beam Rheometer (BBR)
  • Correlation of low temperature fracture and strength properties between SCB and IDT tests using a simple 2D FEM approach
  • Comparison of thermal stresses calculated from asphalt binder and asphalt mixture creep compliance data
    Moon, K. H. [2010]
  • Comparison of low-temperature fracture and strength properties of asphalt mixture obtained from IDT and SCB under different testing configurations
  • Comparison of Thermal Stresses Calculated from Asphalt Binder and Asphalt Mixture Creep Tests
    Moon, K. H. [2013]
  • Case Studies on Successful Utilization of Reclaimed Asphalt Pavement and Recycled Asphalt Shingles in Asphalt Pavements
    West, R. C. [2014]
  • Asphalt in Figures
  • Applied regression including computing and graphics
    Cook, R.D. [1999]
  • Application of diffusion mechanism: Degree of blending between fresh and recycled asphalt pavement binder in dynamic shear rheometer
    Rad, F. [2014]
  • Application of a high percentage of reclaimed asphalt pavement in an asphalt mixture: blending process and performance investigation
    Yu, B. [2017]
  • A specification for production, management and construction of Hot Mix Asphalt material