EVALUATION OF CRUMB RUBBER IN HOT MIX ASPHALT

An asphalt-rubber hot mix asphalt (AR-HMA) design was created using a Superpave 12.5-mm gradation and #30(-)mesh crumb rubber at 20% total weight of the asphalt binder. At this point in time, asphalt rubber has only been used with HMA that contains a more open graded nature, such as open graded friction course (OGFC). However, OGFC is limited in its use due to its potential problems (i.e., clogging and winter maintenance). However, a 12.5-mm Superpave mix may be used on almost any roadway in New Jersey and is most commonly found as the surface course. It is used for both new construction and rehabilitation projects. Therefore, this mix type has the largest potential for usage, meaning that more tires can eventually be recycled. However, two factors need to be considered prior to acceptance: performance and cost. Four HMA mixes were constructed and tested in this study: three baseline mixes using a PG64-22, PG70-22, and a PG75-22 asphalt binder, and the AR-HMA mix which used crumb rubber blended with the same PG64-22 asphalt binder. The influence of crumb rubber particle size on the compaction properties during the mixture design procedure was also evaluated. This would provide a method of comparing the final mixture performance of different performance graded binders to the AR-HMA mix. This type of methodology of testing the mixtures is extremely important due to the necessity of ensuring the crumb rubber complying to the aggregate gradation volume limitations and how the crumb rubber interacts with this volume limitation under performance testing. Therefore, a number of different performance tests were conducted on the four different HMA mixes: 1) Asphalt Pavement Analyzer; 2) Repeated Load Permanent Deformation testing using the Simple Performance test specification; 3) Dynamic Modulus; 4) Repeated Shear at Constant Height; 5) Frequency Sweep at Constant Height; and 6) Simple Shear at Constant Height. The results from the mixture design portion concluded that to provide consistent compactibility when using crumb rubber in a 12.5-mm Superpave design, the maximum particle size should not be greater than a #30 mesh. The performance tests concluded that the AR-HMA mix performed as well as or better than the PG76-22 for every test conducted. For example, the dynamic modulus test results showed that the AR-HMA had similar stiffnesses to the PB76-22 at the high test temperatures, however, the AR-HMA had a much less stiffness at the low test temperature. This indicates that the AR-HMA mix design in this study will provide excellent rut resistance, while also providing excellent low temperature cracking resistance. Essentially, by adding the crumb rubber to the PG64-22, the working temperature range of the asphalt binder increased on both the high and low sides. Also, by performing similarly to the PB76-22, Bayshore Recycling now can establish a cost comparison using the difference in cost between a HMA with a PG64-22 and a PG76-22.

• Record URL:
  • http://cait.rutgers.edu/files/BAY-RU9247.pdf
• 
• Record URL:
  • https://rosap.ntl.bts.gov/view/dot/18363
• Supplemental Notes:
  • Prepared in cooperation with Bayshore Recycling Corporation, P.O. Box 290, Keasbey, NJ 08862.
• Corporate Authors:

  Center for Advanced Infrastructure and Transportation (CAIT)

  Rutgers University
  100 Brett Road
  Piscataway, New Jersey  United States  08854-8058

  New Jersey Department of Transportation

  1035 Parkway Avenue
  Trenton, NJ  United States  08625

  Research and Special Programs Administration

  1200 New Jersey Avenue, SE
  Washington, DC  United States  20590
• Authors:
  • Bennert, T
  • Maher, A
  • Smith, J
• Publication Date: 2004-7

Language

• English

Media Info

• Features: Appendices; Figures; Photos; References; Tables;
• Pagination: 72 p.

Subject/Index Terms

• TRT Terms: Aggregate gradation; Asphalt rubber; Compactibility; Costs; Cracking; Crumb rubber; Dynamic modulus of elasticity; Hot mix asphalt; Mix design; Performance; Performance tests; Recycling; Rutting; Stiffness; Superpave; Temperature; Tires
• Subject Areas: Design; Finance; Highways; Materials; Pavements; Vehicles and Equipment; I22: Design of Pavements, Railways and Guideways; I23: Properties of Road Surfaces; I31: Bituminous Binders and Materials;

Filing Info

• Accession Number: 00984515
• Record Type: Publication
• Report/Paper Numbers: Final Report
• Files: NTL, TRIS, USDOT, STATEDOT
• Created Date: Jan 5 2005 12:00AM