The impact of ageing on the bitumen stiffness modulus using the CAM model

Małgorzata CHOLEWIŃSKA Info

Author Name	Affiliation
Małgorzata CHOLEWIŃSKA	Faculty of Civil Engineering and Architecture, Kielce University of Technology, al. Tysiąclecia P.P. 7, Kielce, 25-314, Poland

Marek IWAŃSKI Info

Author Name	Affiliation
Marek IWAŃSKI	Faculty of Civil Engineering and Architecture, Kielce University of Technology, al. Tysiąclecia P.P. 7, Kielce, 25-314, Poland

Grzegorz MAZUREK Info

Author Name	Affiliation
Grzegorz MAZUREK	Faculty of Civil Engineering and Architecture, Kielce University of Technology, al. Tysiąclecia P.P. 7, Kielce, 25-314, Poland

DOI: https://doi.org/10.3846/bjrbe.2018.386

Abstract

This article presents the results of the viscoelastic properties of the polymer-modified bitumen produced in Warm Mix Asphalt technology. A Fischer-Tropsch synthetic wax and a liquid surface-active agent (fatty amine) were used as bitumen viscosity-reducing modifiers. All tested parameters were determined after short-term and long-term ageing. The complex modulus G* and phase angle δ were measured with a cone-plate rheometer. All dynamic tests were performed at 60 °C within the frequency range from 0.005 Hz to 10 Hz. On the basis of the rheological index R determined using the Christensen−Anderson−Marasteanu (CAM) model, it was found that the fatty amine additive slowed down the age-hardening process in the bitumen. In contrast, the synthetic wax increased the stiffness of the bitumen at all levels tested, regardless of the type of ageing simulation process.

Keywords:

Christensen−Anderson−Marasteanu (CAM) model, long-term ageing, short-term ageing, viscoelasticity, warm mix asphalt technology

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