Disc Shaped Compact Tension (DCT) Specifications Development for Asphalt Pavement

Grant

Date/time Interval

  • February 1, 2016 - May 31, 2019

    • Awarded By

    Total Award Amount

  • USD 74230

    • Sponsor Award Id

  • 953691341

    • Local Award Id

  • 17-0365

    • Contributor

  • Dave, Eshan   Principal Investigator  

    • Supported Publications Or Other Works

  • Asphalt mix fracture energy based reflective cracking performance criteria for overlay mix selection and design for pavements in cold climates  Academic Article
  • Assessment of Various Approaches to Determining Binder Bending Beam Rheometer Low Temperature Specification Parameters from Dynamic Shear Rheometer Test  Conference Paper
  • Cohesive zone fracture modelling of asphalt pavements with applications to design of high-performance asphalt overlays  Academic Article
  • Comprehensive evaluation of low-temperature fracture indices for asphalt mixtures  Academic Article
  • Effect of Mix Design Variables on Thermal Cracking Performance Parameters of Asphalt Mixtures  Academic Article
  • Effects of Mix Design and Fracture Energy on Transverse Cracking Performance of Asphalt Pavements in Minnesota  Academic Article
  • Exploring Master Curve Parameters to Distinguish between Mix Variables  Conference Paper
  • Exploring master curve parameters to distinguish between mixture variables  Academic Article
  • Fatigue and Thermal Cracking Analysis of Asphalt Mixtures Using Continuum-Damage and Cohesive-Zone Models  Academic Article
  • Implementation of Laboratory Testing to Predict Low Temperature Cracking Performance of Asphalt Pavements  Conference Paper
  • Increasing Precision and Confidence Level in Fracture Energy Measurement by Optimizing the Number of Test Replicates for Disk-Shaped Compact Tension Fracture Test (ASTM D7313)  Academic Article
  • Mechanisms of cracking: characterisation and modelling  Academic Article