# Effect of Synthetic Wax on the Rheological Properties of Polymer-Modified Bitumen

**Authors:** Marek Iwański, Małgorzata Cholewińska, Grzegorz Mazurek

PMC · DOI: 10.3390/ma18133067 · 2025-06-27

## TL;DR

This study examines how adding synthetic wax affects the flow and stiffness properties of polymer-modified bitumen during aging processes.

## Contribution

The novel contribution is identifying the optimal synthetic wax content (under 2.5%) to reduce stiffness loss in aged polymer-modified bitumen.

## Key findings

- Synthetic wax mitigates stiffness reduction in polymer-modified bitumen during aging.
- Optimal wax content is less than 2.5% to maintain binder properties.
- Rheological tests showed improved resistance to deformation with wax addition.

## Abstract

The goal of this study is to evaluate how the inclusion of synthetic wax, added in 0.5% increments from 1.5% to 3.5%, affects the characteristics of PMB 45/80-65 (polymer-modified bitumen) during both short-term (RTFOT) and long-term (PAV) aging processes. Tests were carried out to assess the fundamental properties of the binder, leading to the determination of the penetration index (PI) and the plasticity range (PR). The binder’s properties were examined at below-freezing operating temperatures, with creep stiffness measured using a bent beam rheometer (BBR) at −10 °C, −16° C, −22 °C, and −28 °C. The rheological properties of the asphaltenes were evaluated based on both linear and nonlinear viscoelasticity. The experimental study explored temperature effects on the rheological properties of composite materials using a DSR dynamic shear rheometer at 40 °C, 60 °C, and 80 °C over a frequency range of 0.005 to 10 Hz. The main parameters of interest were composite viscosity (η*) and zero shear viscosity (η0). Viscoelastic parameters, including the dynamic modulus (G*) and phase shift angle (δ), were determined, and Black’s curves were used to illustrate the relationship between these parameters, where G*/sinδ was determined. The MSCR test was employed to investigate the impact of bitumen on the asphalt mixture’s resistance to permanent deformation and to assess the degree and efficacy of asphalt modification. The test measured two parameters, irreversible creep compliance (Jnr) and recovery (R), under stress levels of 0.1 kPa (LVE) and 3.2 kPa (N-LVE). The Christensen–Anderson–Marasteanu model was used to describe the bitumen behavior during binder aging, as reflected in the rheological study results. Ultimately, this study revealed that synthetic wax influences the rheological properties of PMB 45/80-65 polymer bitumen. Specifically, it mitigated the stiffness reduction in modified bitumen caused by polymer degradation during aging at an amount less than 2.5% of synthetic wax.

## Full-text entities

- **Chemicals:** Polymer (MESH:D011108), Bitumen (MESH:C006647), Wax (MESH:D014885), PMB (-)

## Figures

19 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12250755/full.md

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Source: https://tomesphere.com/paper/PMC12250755