The Influence of Using Recycled Asphalt Pavement and Crumbed Rubber on Asphalt Pavement: A Review

Authors

  • Sajjad Hashim University of Al Nahrain - Collogue of Engineering
  • Hasan Al-Mosawe Al-Nahrain University
  • Haneen Mohammed İstinye University, Istanbul Turkye

DOI:

https://doi.org/10.29194/NJES.26020074

Keywords:

Crumb Rubber CR, Reclaimed Asphalt Pavement RAP, Pavement Sustainability, Pavement Cost-Effective Materials, Sustainable Pavement Materials

Abstract

Reclaimed (recycled) asphalt pavement (RAP), the most recycled material worldwide, is the mostly reclaimed material utilized in hot mix asphalt. Polymer (Crumb rubber) incorporation frequently leads to enhanced durability and resistance to heat cracking and rutting, two forms of permanent deformation. It also relieves stiffness and minimizes fatigue damage. This study aims to gather all previous RAP-related research and crumb rubber CR, so that the impact of using these materials on mechanical, physical properties of asphalt pavement, environmental effect and cost effective are clarify and explained. The finding of this research proved that the use of RAP and CR provide considerable structural and financial enhancements to the construction.

Downloads

Download data is not yet available.

Author Biographies

  • Hasan Al-Mosawe, Al-Nahrain University

     

     

  • Haneen Mohammed, İstinye University, Istanbul Turkye

     

     

References

Sienkiewicz, J. K. Lipka, H. Janik, and A. Balas, WasteManagement, vol. 32, 2012.

D. D. Carlson and H. Zhu, “Asphalt-Rubber - An Anchor to Crumb Rubber Markets,” in Proc. Third Joint UNCTAD/IRSG Workshop on Rubber and the Environment, International Rubber Forum, Veracruz, Mexico, October 7, 1999

Federal Highway Administration Superpave Mixture Expert Task Group. Guidelines for the design of Superpave mixtures containing reclaimed asphalt pavement. Washington (DC), 1997.

Kandhal PS. Recycling of asphalt pavement – an overview. J Assoc Asphalt Paving Technol 1997;66.

Alfayez, S. A., Suleiman, A. R., & Nehdi, M. L. (2020). Recycling tire rubber in asphalt pavements: State of the art. Sustainability, 12(21), 9076.

Putman BJ. Quantification of the effects of crumb rubber in CRM binder. PhD dissertation. Clemson University, Clemson, SC, 2005.

Rubber Manufacturers Association (RMA). US scrap tire markets 2006 edition. Rubber Manufactures Association, Washington (DC), 2006.

Amirkhanian, Serji N. "Utilization of crumb rubber in asphaltic concrete mixtures–South Carolina’s Experience." See ref 3 (2001): 163-174, USA.

Wulandari, P. S., & Tjandra, D. (2017). Use of crumb rubber as an additive in asphalt concrete mixture. Procedia engineering, 171, 1384-1389.

David E. Newcomb, E. Ray Brown, Jon A. Epps. 2007. Designing HMA Mixtures with High RAP Content. A Practical Guide. Quality Improvement Series 124. National Asphalt Pavement Association, Lanham, MD.

Mcdaniel, r. S. & anderson, r. M. 2001. Recommended use of reclaimed asphalt pavement in the Superpave mix design method: technician's manual. National Research Council (US). Transportation Research Board.

Abdalhameed, A. M., & Abd, D. M. (2021). Rutting Performance of Asphalt Layers Mixtures with Inclusion RAP Materials. Anbar Journal of Engineering Sciences, 9(2).

Arshad, A. K., Abd Karim, Z., Shaffie, E., Hashim, W., & Abd Rahman, Z. (2017, November). Marshall properties and rutting resistance of hot mix asphalt with variable reclaimed asphalt pavement (RAP) content. In IOP Conference Series: Materials Science and Engineering (Vol. 271, No. 1, p. 012078). IOP Publishing.

MOHAMMED , H. H. 2019. Assessment of Sustainable Modified Asphalt Paving Mixtures.

ISMAEL , A. D. 2018. Evaluation of Cold Asphalt Emulsion Mixtures (CAEMs) With Different Percentages of Recycled Aggregate.

NagaRajesh, K., Kumar, B. G., Jagadeesh, G., & Rao, R. S. A Study on Asphalt Pavements by using RAP, Sand & UFS Mixtures as Replacements.

PRADYUMNA, T. A., MITTAL, A., JAIN, P. J. P.-S. & SCIENCES, B. 2013. Characterization of reclaimed asphalt pavement (RAP) for use in bituminous road construction. 104, 1149-1157.

Alam, T. B., Abdelrahman, M., & Schram, S. A. (2010). Laboratory characterisation of recycled asphalt pavement as a base layer. International Journal of Pavement Engineering, 11(2), 123-131.

Kim, W., Labuz, J. F., & Dai, S. (2007). Resilient modulus of base course containing recycled asphalt pavement. Transportation Research Record, 2005(1), 27-35.

Heitzman, M.A. State of the Practice—Design and Construction of Asphalt Paving Materials with Crumb Rubber Modifier; Research Report No. FHWA-SA-92-022, 1339; Federal Highway Administration: Washington, DC, USA, 1992; pp. 1–8.

Hicks, R.G. Asphalt Rubber Design and Construction Guidelines; Rubberized Asphalt Concrete Technology Center: Alhambra, CA, USA, 2002

Segre, N.; Joekes, I. Use of tire rubber particles as addition to cement paste. Cem. Concr. Res. 2000, 30, 1421–1425.

Presti, D.L. Recycled tyre rubber modified bitumens for road asphalt mixtures: A literature review. Constr. Build. Mater. 2013, 49, 863–881.

Thomas, B.S.; Gupta, R.C.; Panicker, VJ Recycling of waste tire rubber as aggregate in concrete: Durability-related performance. J. Clean. Prod. 2016, 112, 504–513

Pollutant emissions of a biomass gasifier inside a multifuel energy plant. Atmos. Pollut. Res. 2019, 10, 2000–2009

Garrick, G.M. Analysis and Testing of Waste Tire Fiber Modified Concrete. Master’s Thesis, Louisiana State University (LSU), Baton Rouge, LA, USA, 2005; p. 217.

Martinez, J.D.; Veses, A.; Mastral, A.M.; Murillo, R.; Navarro, M.V.; Puy, N.; Artigues, A.; Bartroli, J.; Garcia, T. Co-pyrolysis of biomass with waste tyres: Upgrading of liquid bio-fuel. Fuel Process. Technol. 2014, 119, 263–271.

Zhang, L.; Zhou, B.; Duan, P.G.; Wang, F.; Xu, Y.P. Hydrothermal conversion of scrap tire to liquid fuel. Chem. Eng. J. 2016, 285, 157–163.

Rowhani, A.; Rainey, T.J. Scrap Tyre Management Pathways and Their Use as a Fuel—A Review. Energies 2016, 9, 888.

T. Butz, J. Muller, G. Riebesehl, Innovative methof for producing crumbed rubber modified asphalt, 5th Eurasphalt & Eurobitume Congress, Istanbul, 2012

W. Cao, Study on properties of recycled tire rubber modified asphalt mixtures using dry process, Construction and Building Materials (21), 2007, 1011-1015

D. Zhang, X. Huang, Y. Zhao, S. Zhang, Rubberized asphalt mixture design using a theoretical model, Construction and Building Materials (67), 2014, 265-269

Gong, F.; Guo, S.; Chen, S.; You, Z.; Liu, Y.; Dai, Q. Strength and durability of dry-processed stone matrix asphalt containing cement pre-coated scrap tire rubber particles. Constr. Build. Mater. 2019, 214, 475–483.

Ebrahim, S. M., & Karim, H. K. (2019). Evaluation of Characteristics of Recycled Asphalt Pavement (RAP) Materials with and without Using Additive Materials. Sulaimania Journal for Engineering Sciences, 6(4).

Shen, J., Amirkhanian, S., Lee, S. J., & Putman, B. (2006). Recycling of laboratory-prepared reclaimed asphalt pavement mixtures containing crumb rubber–modified binders in hot-mix asphalt. Transportation Research Record, 1962(1), 71-78.

Xiao, F., & Amirkhanian, S. N. (2010). Laboratory investigation of utilizing high percentage of RAP in rubberized asphalt mixture. Materials and structures, 43(1), 223-233.

Xiao, F., Amirkhanian, S. N., Shen, J., & Putman, B. (2009). Influences of crumb rubber size and type on reclaimed asphalt pavement (RAP) mixtures. Construction and Building Materials, 23(2), 1028-1034.

Xiao, F., & Amirkhanian, S. N. (2009). Laboratory investigation of moisture damage in rubberised asphalt mixtures containing reclaimed asphalt pavement. International Journal of Pavement Engineering, 10(5), 319-328.

Fakhri, M., & Azami, A. (2017). Evaluation of warm mix asphalt mixtures containing reclaimed asphalt pavement and crumb rubber. Journal of Cleaner Production, 165, 1125-1132.

Xiao, F., Amirkhanian, S., Putman, B., & Shen, J. (2010). Laboratory investigation of engineering properties of rubberized asphalt mixtures containing reclaimed asphalt pavement. Canadian Journal of Civil Engineering, 37(11), 1414-1422.

Xiao, F., Amirkhanian, S., & Juang, C. H. (2007). Rutting resistance of rubberized asphalt concrete pavements containing reclaimed asphalt pavement mixtures. Journal of Materials in Civil Engineering, 19(6), 475-483.

Aghapour, M., & Babagoli, R. (2020). Effect of reclaimed asphalt pavement on performance of rubberised asphalt mixtures. Proceedings of the Institution of Civil Engineers-Construction Materials, 173(6), 284-297.

Abbas, W. UAE Invests More in Transportation. Khaleej Times, 23 December 2017.

Arulrajah, A.; Disfani, M.M.; Horpibulsuk, S.; Suksiripattanapong, C.; Prongmanee, N. Physical properties and shear strength responses of recycled construction and demolition materials in unbound pavement base/subbase applications. Constr. Build. Mater. 2014, 58, 245–257.

El Gergawy, Y. Life Cycle Cost Analysis as a Technique to Reduce Project’s Cost Overruns of Assets in UAE: A Case Study-Based Research; British University in Dubai: Dubai, United Arab Emirates, 2011.

Hasan, U.; Whyte, A.; Al Jassmi, H. Life cycle assessment of roadworks in United Arab Emirates: Recycled construction waste, reclaimed asphalt pavement, warm-mix asphalt and blast furnace slag use against traditional approach. J. Clean. Prod. 2020, 257, 120531.

Hasan, U., Whyte, A., Al Jassmi, H., & Hasan, A. (2022). Lifecycle Cost Analysis of Recycled Asphalt Pavements: Determining Cost of Recycled Materials for an Urban Highway Section. CivilEng, 3(2), 316-331.

Qiao, Y., Dave, E., Parry, T., Valle, O., Mi, L., Ni, G., ... & Zhu, Y. (2019). Life cycle costs analysis of reclaimed asphalt pavement (RAP) under future climate. Sustainability, 11(19), 5414.

Mousa, R. M., & Mousa, M. R. (2019). Cost–benefit analysis of RAP–sand blend applications in road construction. Transportation Research Record, 2673(2), 415-426.

Franke, R., & Ksaibati, K. (2015). A methodology for cost-benefit analysis of recycled asphalt pavement (RAP) in various highway applications. International Journal of Pavement Engineering, 16(7), 660-666.

Souliman, M. I., Mamlouk, M., & Eifert, A. (2016). Cost-effectiveness of rubber and polymer modified asphalt mixtures as related to sustainable fatigue performance. Procedia Engineering, 145, 404-411.

Bueno, L. D., Specht, L. P., da Silva Pereira, D., & Ribas, J. (2016). < b> Cost-benefit analysis of the construction of different flexible pavement structures considering the axle load and type of binder. Acta Scientiarum. Technology, 38(4), 445-453.

Franco, F. A. C. P. (2007). Método de dimensionamento mecanístico-empírico de Pavimentos asfálticos – SisPav (Tese de Doutorado). Universidade Federal do Rio de Janeiro. Rio de Janeiro, RJ.

Downloads

Published

08-07-2023

How to Cite

[1]
S. Hashim, H. Al-Mosawe, and H. Mohammed, “The Influence of Using Recycled Asphalt Pavement and Crumbed Rubber on Asphalt Pavement: A Review”, NJES, vol. 26, no. 2, pp. 74–82, Jul. 2023, doi: 10.29194/NJES.26020074.

Similar Articles

11-20 of 252

You may also start an advanced similarity search for this article.