Al-Mohammedawi Ahmed, Mollenhauer Konrad
Engineering and Maintenance of Road Infrastructure, Faculty of Civil and Environmental Engineering Kassel, University of Kassel, 34127 Kassel, Germany.
Materials (Basel). 2020 Oct 16;13(20):4627. doi: 10.3390/ma13204627.
Cold Bitumen Emulsion (CBE) mixture technologies have been recently developed to lower pavement construction temperatures to reduce environmental costs and control gas emissions. Due to its poor early mechanical strength, active fillers (i.e., cement) have been used to obtain high early stiffness in order to have the potential for timely construction of the next layer. There is, however, a lack of understanding about the impact of active fillers on the viscoelastic behavior and fatigue damage resistance of CBE mastics. This study, therefore, aims to identify the influence of active fillers on the rheological properties and the resulting fatigue behavior of CBE mastic, supported by chemical analysis for the filler-bitumen emulsion. For this aim, bitumen emulsion was mixed separately with seven fillers/blended fillers to prepare the CBE mastics. Various experiments, including continuous pH monitoring tests (chemical reactivity of filler-bitumen emulsion), Strain Sweep (SS) tests, Temperature-Frequency Sweep (TFS) tests, Time Sweep (TS) tests, and Linear Amplitude Sweep (LAS) tests were conducted on the CBE binder and the prepared mastics. Results show that the rheological performance and the fatigue damage resistance depend not only on the filler inclusions but also on filler type and chemistry. On this basis, the rise in complex shear modulus and the decrease in the viscous component is associated with a significant enhancement in fatigue performance for specific fillers.
冷沥青乳液(CBE)混合料技术最近已被开发出来,以降低路面施工温度,从而降低环境成本并控制气体排放。由于其早期力学强度较差,已使用活性填料(即水泥)来获得较高的早期刚度,以便有潜力及时进行下一层的施工。然而,目前对于活性填料对CBE胶泥粘弹性行为和抗疲劳损伤性能的影响尚缺乏了解。因此,本研究旨在通过对填料 - 沥青乳液的化学分析,确定活性填料对CBE胶泥流变性能及由此产生的疲劳行为的影响。为此,将沥青乳液分别与七种填料/混合填料混合,制备CBE胶泥。对CBE粘结剂和制备的胶泥进行了各种试验,包括连续pH监测试验(填料 - 沥青乳液的化学反应性)、应变扫描(SS)试验、温度 - 频率扫描(TFS)试验、时间扫描(TS)试验和线性振幅扫描(LAS)试验。结果表明,流变性能和抗疲劳损伤性能不仅取决于填料的掺入量,还取决于填料类型和化学性质。在此基础上,对于特定填料,复数剪切模量的增加和粘性成分的减少与疲劳性能的显著提高相关。