Advanced search
Publication Cover
International Journal of Pavement Engineering Volume 24, 2023 - Issue 1
Submit an article Journal homepage
125
Views
0
CrossRef citations to date
0
Altmetric
Research Article

Effect of mastic specifications on the fatigue and low-temperature performance of hot mix asphalt

Ramin RasouliDepartment of Civil Engineering, University of Zanjan, Zanjan, Iran
&
Alireza Khavandi KhiaviDepartment of Civil Engineering, University of Zanjan, Zanjan, IranCorrespondence[email protected]
Article: 2215899 | Received 07 Dec 2022, Accepted 15 May 2023, Published online: 28 May 2023

References

  • AASHTO M 323, 2013. Standard specifications for superpave volumetric Mix design. Washington, D.C: American Association of State Highway and Transportation Officials.
  • AASHTO T 321, 2014. Determining the fatigue life of compacted asphalt mixture subjected to repeated flexural bending. Washington, D.C: American Association of State Highway and Transportation Officials.
  • AASHTO TP105, 2015. Standard method of test for determining the fracture energy of asphalt mixtures using the semicircular bend geometry (SCB). Washington, D.C: American Association of State Highway and Transportation Officials.
  • Abbas, A., et al., 2005. Modelling asphalt mastic stiffness using discrete element analysis and micromechanics-based models. International Journal of Pavement Engineering, 6 (2), 137–146. doi:10.1080/10298430500159040.
  • Abhijith, B. S., and Atul Narayan, S. P., 2022. Evolution of complex modulus and higher harmonics of stress response of asphalt concrete in strain-controlled four-point beam fatigue tests. International Journal of Pavement Engineering, 23 (13), 4487–4503. doi:10.1080/10298436.2021.1954181.
  • Al-Qadi, I. L., et al., 2022. Cracking prediction of asphalt concrete using fracture and strength tests. International Journal of Pavement Engineering, 23:10, 3333–3345. doi:10.1080/10298436.2021.1892108.
  • Anderson, D. A., and Goetz, W. H., 1973. Mechanical behavior and reinforcement of mineral filler-asphalt mixtures. Joint Highway Research Project. Project No.: C-36-6Y.
  • Bala, N., and Napiah, M., 2020. Fatigue life and rutting performance modelling of nanosilica/polymer composite modified asphalt mixtures using Weibull distribution. International Journal of Pavement Engineering, 21 (4), 497–506. doi:10.1080/10298436.2018.1492132.
  • Benedetto, H. D., et al., 2004. Linear viscoelastic behaviour of bituminous materials: From binders to mixes. Road Materials and Pavement Design, 5 (sup1), 163–202. doi:10.1080/14680629.2004.9689992.
  • Benson, F. C., and Martinez, F., 1984. Evaluation of several mineral fillers for Use in item 340 Hot-Mix asphalt concrete. FHWA/RD-85/1 + 285-3. Arlington, TX: Texas Transportation Institute.
  • Braham, A., and Mudford, C., 2013. Development of fracture resistance curves for asphalt concrete. Journal of Materials in Civil Engineering, 25 (11), 1631–1637.
  • Cao, L., 2013. Experimente research of filler-bitumen ratio impact on asphalt mixture performance. Applied Mechanics and Materials. Trans Tech Publ, 361–363, 1851–1856. doi:10.4028/www.scientific.net/amm.361-363.1851.
  • Chandra, S., and Choudhary, R., 2013. Performance characteristics of bituminous concrete with industrial wastes as filler. Journal of Materials in Civil Engineering, 25 (11), 1666–1673.
  • Chen, Y., et al., 2020. Role of mineral filler in asphalt mixture. Road Materials and Pavement Design.
  • Chen, M., Lin, J., and Wu, S., 2011. Potential of recycled fine aggregates powder as filler in asphalt mixture. Construction and Building Materials, 25 (10), 3909–3914.
  • Craus, J, Ishai, I., and Sides, A., 1978. Some physico-chemical aspects of the effect and the role of the filler in bituminous paving mixtures. Association of Asphalt Paving Technology, 47, 558–588.
  • Cooley, Jr, L. A., James, R. S., and Buchanan, M. S., 2002. Development of mix design criteria for 4.75 mm superpave mixes-Final Report. NCAT Report 02, 4. Auburn, AL: National Center for Asphalt Technology.
  • Du, H., Ni, F., and Ma, X., 2021. Crack resistance evaluation for In-service asphalt pavements by using SCB tests of layer-core samples. Journal of Materials in Civil Engineering, 33 (1), 04020418.
  • Dukatz, E. L., and Anderson, D. A., 1980. The effect of various fillers on the mechanical behavior of asphalt and asphalt concrete. Association of Asphalt Paving Technology, 49, 530–549.
  • Ekblad, J., Lundström, R., and Simonsen, E., 2015. Water susceptibility of asphalt mixtures as influenced by hydraulically active fillers. Materials and Structures, 48 (4), 1135–1147.
  • Faheem, A. F., et al., 2008. Effect of mineral filler on damage resistance characteristics of asphalt binder. Journal of the Association of Asphalt Paving Technologists, 77, 885–908.
  • Faheem, A. F., et al., 2010. Evaluation of Rigden fractional voids test method and the relation to mastic viscosity. Asphalt Paving Technology: Association of Asphalt Paving Technologists-Proceedings of the Technical Sessions, 79, 1–25.
  • FHWA FP-14, 2014. Standard specification for construction of roads and bridges on federal highway projects. Washington, DC: United States Department of Transportation, Federal Highway Administration.
  • Geçkil, T., 2019. Physical, chemical, microstructural and rheological properties of reactive terpolymer-modified bitumen. Materials, 12 (6), 921.
  • Gong, M., et al., 2019. Evaluation on the cracking resistance of semi-flexible pavement mixture by laboratory research and field validation. Construction and Building Materials, 207, 387–395.
  • Grabowski, W., and Wilanowicz, J., 2008. The structure of mineral fillers and their stiffening properties in filler-bitumen mastics. Materials and Structures, 41, 793–804. doi:10.1617/s11527-007-9283-4.
  • Hesp, S., Terlouw, T., and Vonk, W., 2000. Low temperature performance of SBS-modified asphalt mixes. Asphalt Paving Technology, 69, 540–573.
  • Heukelom, W., 1968. The role of filler in bituminous mixes. Association of Asphalt Paving Technology, 34, 396–429.
  • Hu, X., et al., 2017. Performance evaluation of asphalt mixture using brake pad waste as mineral filler. Construction and Building Materials, 138, 410–417.
  • Huang, B, Shu, X., and Chen, X., 2007. Effects of mineral fillers on hot-mix asphalt laboratory-measured properties. International Journal of Pavement Engineering, 8 (1), 1–9.
  • Ishai, I., Craus, J., and Sides, A., 1980. A model for relating filler properties to optimal behavior of bituminous mixtures. Association of Asphalt Paving Technologists Proceedings, 49, 416–439.
  • Kandhal, P. S., Lynn, C. Y., and Parker, F., 1998. Characterization tests for mineral fillers related to performance of asphalt paving mixtures. Transportation Research Record: Journal of the Transportation Research Board, 1638 (1), 101–110.
  • Keyser, J. H., 1972. Mix design criteria for wear resistant bituminous pavement surfaces with discussion (No. 418).
  • Khavandi Khiavi, A., and Rasouli, R., 2018. Laboratory evaluation of loading frequency effects on HMA self-healing. Construction and Building Materials, 162, 1–8.
  • Kim, Y.R., Little, D.N., and Song, I., 2003. Effect of mineral fillers on fatigue resistance and fundamental material characteristics: mechanistic evaluation. Transportation Research Record: Journal of the Transportation Research Board, 1832, 1–8.
  • Lackner, R., et al., 2005. Is Low-temperature creep of asphalt mastic independent of filler shape and mineralogy?—arguments from multiscale analysis. Journal of Materials in Civil Engineering, 17 (5), 485–491.
  • Li, F., Yang, Y., and Wang, L., 2022. The interfacial interaction between asphalt binder and mineral filler: a comprehensive review on mechanisms, evaluation methods and influence factors. International Journal of Pavement Engineering, 23 (12), 4291–4305. doi:10.1080/10298436.2021.1942468.
  • Liao, M. C., Chen, J. S., and Tsou, K. W., 2012. Fatigue characteristics of bitumen-filler mastics and asphalt mixtures. Journal of Materials in Civil Engineering, 24 (7), 916–923.
  • Little, D. N., et al., 1997. Propagation and healing of microcracks in asphalt concrete and their contributions to fatigue. In: Asphalt Science and Technology. New York, NY: Marcel Dekker Inc., 149–195.
  • Liu, X., et al., 2018. Performance evaluation of asphalt mixture with nanosized volcanic ash filler. Journal of Transportation Engineering, Part B: Pavements, 144 (3), 004018028.
  • Liu, Z., et al., 2019. Engineering properties and microwave heating induced ice-melting performance of asphalt mixture with activated carbon powder filler. Construction and Building Materials, 197, 50–62.
  • Majidifard, H., et al., 2021. Development of a balanced cracking index for asphalt mixtures tested in semi-circular bending with load-LLD measurements. Measurement, 108658.
  • Marasteanu, M.O., et al., 2002. Determining the low-temperature fracture toughness of asphalt mixtures. Transportation Research Record: Journal of the Transportation Research Board, 1789 (1), 191–199.
  • Molenaar, A., et al., 2002. Semi-circular bending test; simple but useful? Journal of the Association of Asphalt Paving Technologists, 71, 794–815.
  • Motamedi, M., Shafabakhsh, G., and Azadi, M., 2020. Linking fatigue response of asphalt binders, mastics, and asphalt concrete mixture modified by nano-silica and synthesized polyurethane. International Journal of Damage Mechanics, 0 (0), 1–20.
  • MS-2. asphalt mix design methods, 2014. Institute, A., Lexington Kentucky, USA.
  • NCHRP Report 673, 2011. A manual for design of hot mix asphalt with commentary. Washington, DC: Advanced Asphalt Technologies, NCHRP, Transportation Research Board.
  • Oshone, M., et al., 2018. Effect of mix design variables on thermal cracking performance parameters of asphalt mixtures. Transportation Research Record: Journal of the Transportation Research Board, 2672 (28), 471–480.
  • Ozer, H., et al., 2018. Prediction of pavement fatigue cracking at an accelerated testing section using asphalt mixture performance tests. International Journal of Pavement Engineering, 19 (3), 264–278. doi:10.1080/10298436.2017.1347435.
  • Pell, P. S., McCarthy, P. F., and Gardner, R. R., 1961. Fatigue of bitumen and bituminous mixes. International Journal of Mechanical Sciences, 3 (4), 247–267.
  • Puzinauskas, V. P., 1983. Filler in asphalt mixtures. Asphalt Institute. Report Numbers: RR-69-2.
  • Rahbar-Rastegar, R., and Daniel, J. S., 2016. Rilem bookseries. In: 8th RILEM International Conference on Mechanisms of Cracking and Debonding in Pavements, 307–312.
  • Rahbar-Rastegar, R., Daniel, J. S., and Reinke, G., 2017. Comparison of asphalt binder and mixture cracking parameters. Road Materials and Pavement Design, 18 (4), 211–233.
  • Rigden, P. J., 1947. The use of fillers in bituminous road surfacings. A study of filler-binder systems in relation to filler characteristics. Journal of the Society of Chemical Industry, 66, 299–309. doi:10.1002/jctb.5000660902.
  • Shen, S., et al., 2006. A dissipated energy approach to fatigue evaluation. Road Materials and Pavement Design, 7 (1).
  • Sheng, Y., et al., 2017. Effects of phosphorus slag powder and polyester fiber on performance characteristics of asphalt binders and resultant mixtures. Construction and Building Materials, 141, 289–295.
  • Tran, N., et al., 2019. Mix design strategies for improving asphalt mixture performance. Auburn, AL: National Center for Asphalt Technology. NCAT Report 19-08.
  • Tunnicliff, D. G., 1967. Binding effects of mineral filler. Association of Asphalt Paving Technologists Proceedings, 36, 114–156.
  • Tutu, K. A., and Timm, D. H., 2022. Recursive pseudo fatigue cracking damage model for asphalt pavements. International Journal of Pavement Engineering, 23 (8), 2654–2674. doi:10.1080/10298436.2020.1867856.
  • Underwood, B. S., and Kim, Y. R., 2013. Microstructural investigation of asphalt concrete for performing multiscale experimental studies. International Journal of Pavement Engineering, 14 (5), 498–516. doi:10.1080/10298436.2012.746689.
  • Wang, H., et al., 2016. Characterization of low temperature crack resistance of crumb rubber modified asphalt mixtures using semi-circular bending tests. Journal of Testing and Evaluation, 44 (2), 20150145–855.
  • Wang, X., et al., 2021. Cracking analysis of asphalt mixture using semi-circle bending method. Iranian Journal of Science and Technology, Transactions of Civil Engineering, 1–11.
  • Zeng, M., and Wu, C., 2008. Effects of type and content of mineral filler on viscosity of asphalt mastic and mixing and compaction temperatures of asphalt mixture. Transportation Research Record: Journal of the Transportation Research Board, 2051, 31–40.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.