Asphalt mixture and its time delay of stress after strain at change of temperature and frequency

[1] Komba J., Maina J.W., Anochie-Boateng J.K., O´connell J.. 2012. Analytical modelling of visco-elastic behaviour of hot-mix asphalt. Abstracts of the 31st Southern African Transport Conference, Proceedings ISBN Number: 978-1-920017-53-8. Search in Google Scholar

[2] Mollenhauer K., Wistuba M., Rabe R.. 2009. Loading Frequency and Fatigue: In situ conditions & Impact on Test Results. 2nd Workshop on Four Point Bending, Pais (ed.). University of Minho. ISBN 978-972-8692-42-1. Search in Google Scholar

[3] Manolis S., Eng P.. 2014. Engineering properties of asphalt cement binders and their relation to pavement performance. Presnetation to Thirdyear Civil Engineering. Royal Military College of Canada. Search in Google Scholar

[4] Zhang R., Wang H., Gao J., You Z.. 2017. High temperature performance of SBS modified bio-asphalt. Construction and Building Materials 144:99-105, DOI: 10.1016/j. conbuildmat.2017.03.103. Search in Google Scholar

[5] Zbiciaka A., Michalczyk R., Brzeziński K.. 2016. Evaluation of fatigue strength of pavement structure considering the effects of load velocity and temperatu revariations. XXV Polish – Russian – Slovak Seminar “Theoretical Foundation of Civil Engineering”, Procedia Engineering 153 (2016) 895 – 902.10.1016/j.proeng.2016.08.222 Search in Google Scholar

[6] 2nd Workshop on Four Point Bending, Pais (ed.), © 2009. University of Minho. ISBN 978-972-8692-42-1. Search in Google Scholar

[7] Chabot A., Chupin O., Deloffre L.,Duhamel D.. 2009. Viscoroute 2.0: a tool for the simulation of moving loade ffects on asphalt pavement. Road Materials and Pavements Design. Volume X – No X/2009,10.3166/rmpd.11.227-250 Search in Google Scholar

[8] Al-Qadi I.L., Fini E.H., Masson J.F., McGhee K.M.. 2008. Effect of Bituminous Material Rheology on Adhesion. Transportation Research Record: Journal of the Transportation Research Board, No. 2044, Washington, D.C., pp. 96–104. DOI: 10.3141/2044-11.10.3141/2044-11 Search in Google Scholar

[9] Xu Q., Solaimanian M.. 2009. Modelling linear viscoelastic properties of asphalt concrete by theHuet – Sayegh model. ISSN 1029-8436 print /ISSN 1477-268X online. Taylor & Francis, DOI: 10.1080/10298430802524784.10.1080/10298430802524784 Search in Google Scholar

[10] Wu H., Huang B., Shu X.. 2012. Characterizing viscoelastic properties of asphalt mixture sutilizing loaded wheel tester (LWT). Road Materials and Pavement Design, Vol. 13, No. S1. 38–55, ISSN 1468-0629 print/ISSN 2164-7402 online, 2012 Taylor&Francis.10.1080/14680629.2012.657049 Search in Google Scholar

[11] Biligiria K.B., Kaloush K., Uzan J.. 2010. Evaluation of asphalt mixtures’ viscoelastic properties using phase angle relationships. International Journal of Pavement Engineering, Vol. 11, No. 2. 143–152. ISSN 1029-8436 print/ISSN 1477-268X online.10.1080/10298430903033354 Search in Google Scholar