Potential of Using Imidazoline in Recycled Asphalt Pavement

Authors

DOI:

https://doi.org/10.7250/bjrbe.2019-14.456

Keywords:

fatigue performance, lard imidazoline, recycled asphalt pavement (RAP), stiffness modulus, rut resistance

Abstract

The environmental considerations need to be taken into account in any road resurfacing and upgrading project, for example, by reusing asphalt rubble for production of new pavement courses. Mixtures containing larger amounts of recycled asphalt pavement are improved by adding rejuvenator additives. The tests performed on the recycled asphalt mixtures containing lard imidazoline confirm the suitability of this agent for paving applications. Lard imidazoline was found to improve the stiffness modulus, fatigue performance and resistance to the action of water and freezing temperatures. The parameters obtained at the optimum content of additive complied with the criteria defined for virgin asphalt concrete and other mixtures of that kind.

References

Bajpai, D., & Tyagi, V. K. (2008). Synthesis and characterization of imidazolinium surfactants derived from tallow fatty acids and diethylenetriamine. European Journal of Lipid Science and Technology, 110(10), 935-940. https://doi.org/10.1002/ejlt.200800046

Čygas, D., Mučinis, D., Sivilevičius, H., & Abukauskas, N. (2011). Dependence of the recycled asphalt mixture physical and mechanical properties on the grade and amount of rejuvenating bitumen. The Baltic Journal of Road and Bridge Engineering, 6(2), 124-134. https://doi.org/10.3846/bjrbe.2011.17

Feng, Z. G., Yu, J. Y., Zhang, H. L., Kuang, D. L., & Xue, L. H. (2013). Effect of ultraviolet aging on rheology, chemistry and morphology of ultraviolet absorber modified bitumen. Materials and Structures, 46(7), 1123-1132. https://doi.org/10.1617/s11527-012-9958-3

Gawel, I., Czechowski, F., & Kosno, J. (2016). An environmental friendly anti-ageing additive to bitumen. Construction and Building Materials, 110, 42-47. https://doi.org/10.1016/j.conbuildmat.2016.02.004

James, A., & Stewart, D. (1991). The use of fatty amine derivatives to slow down the age-hardening process in bitumen. In Presented at the conference” The Chemistry of Bitumen” Rome (Vol. 671, p. 684).

Kandhal, P. S., & Chakraborty, S. (1996). Effect of asphalt film thickness on short-and long-term aging of asphalt paving mixtures. Transportation Research Record, 1535(1), 83-90. https://doi.org/10.3141/1535-11

Kuang, D., Yu, J., Feng, Z., Li, R., Chen, H., Guan, Y., & Zhang, Z. (2014). Performance evaluation and preventive measures for aging of different bitumens. Construction and Building Materials, 66, 209-213. https://doi.org/10.1016/j.conbuildmat.2014.04.016

Liu, M., Chaffin, J. M., Davison, R. R., Glover, C. J., & Bullin, J. A. (1998). Changes in Corbett fraction composition during oxidation of asphalt fractions. Transportation Research Record, 1638(1), 40-46.

Lu, X., & Isacsson, U. (2002). Effect of ageing on bitumen chemistry and rheology. Construction and Building materials, 16(1), 15-22. https://doi.org/10.1016/s0950-0618(01)00033-2

Paliukaitė, M., Vaitkus, A., & Zofka, A. (2015) Influence of bitumen chemical composition and ageing on pavement performance. The Baltic Journal of Road and Bridge Engineering, 10(1), 97-104. https://doi.org/10.3846/bjrbe.2015.12

Piłat, J., & Radziszewski, P. (2004) Nawierzchnie Asfaltowe. WKŁ, Warszawa, 51-53. (in Polish)

PN-65/C-96170:1965 Przetwory naftowe − Asfalty drogowe (in Polish)

PN-EN 12697-1:2012 Bituminous Mixtures − Test Methods for Hot Mix Asphalt − Part 1: Soluble Binder Content

PN-EN 12697-12:2018 Bituminous Mixtures − Test Methods − Part 12: Determination of the Water Sensitivity of Bituminous Specimens

PN-EN 12697-22+A1:2008 Bituminous Mixtures − Test Methods for Hot Mix Asphalt − Part 22: Wheel Tracking

PN-EN 12697-24:2018 Bituminous Mixtures − Test Methods − Part 24: Resistance to Fatigue

PN-EN 12697-26:2018 Bituminous Mixtures − Test Methods for Hot Mix Asphalt −Part 26: Stiffness

PN-EN 12697-3:2013 Bituminous Mixtures − Test Methods for Hot Mix Asphalt −Part 3: Bitumen Recovery: Rotary Evaporator

PN-EN 12697-5:2010 AC 2012 Bituminous Mixtures − Test Methods for Hot Mix Asphalt − Part 5: Determination of the Maximum Density

PN-EN 12697-6:2012 Bituminous Mixtures − Test Methods for Hot Mix Asphalt − Part 6: Determination of Bulk Density of Bituminous Specimens

PN-EN 12697-8:2005 Bituminous Mixtures − Test Methods for Hot Mix Asphalt − Part 8: Determination of Void Characteristics of Bituminous Specimens

PN-EN 13589:2018 Bitumen and Bituminous Binders − Determination of the Tensile Strength of Modified Bitumens, the Ductile Method

PN-EN 1426:2015 Bitumen and Bituminous Binders − Determination of Needle Penetration

PN-EN 1427:2015 Bitumen and Bituminous Binders − Determination of the Softening Point − Ring and Ball Method

PN-EN 14770:2012 Bitumen and Bituminous Binders − Determination of Complex Shear Modulus and Phase Angle - Dynamic Shear Rheometer (DSR)

PN-EN ISO 13703:2004 Petroleum and Natural Gas Industries − Design and Installation of Piping Systems on Offshore Production Platforms

PN-S-96022:1974 Drogi Samochodowe i Lotniskowe − Nawierzchnie z Betonu Asfaltowego (in Polish)

WT-2:2014 Nawierzchnie asfaltowe na drogach krajowych (in Polish)

Wu, S., Pang, L., Mo, L., Qiu, J., Zhu, G., & Xiao, Y. (2008). UV and thermal aging of pure bitumen-comparison between laboratory simulation and natural exposure aging. Road Materials and Pavement Design, 9(sup1), 103-113. https://doi.org/10.1080/14680629.2008.9690161

Yut, I., & Zofka, A. (2014). Correlation between rheology and chemical composition of aged polymer-modified asphalts. Construction and Building Materials, 62, 109-117. https://doi.org/10.1016/j.conbuildmat.2014.03.043

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Published

27.12.2019

How to Cite

Jurczak, R., Mieczkowski, P., & Budziński, B. (2019). Potential of Using Imidazoline in Recycled Asphalt Pavement. The Baltic Journal of Road and Bridge Engineering, 14(4), 521-542. https://doi.org/10.7250/bjrbe.2019-14.456