CaCO3和Lldpe混合料沥青粘结剂的流变力学性能

M. Hasan, Zhanping You, M. Satar, M. N. Warid, N. Kamaruddin, S. Poovaneshvaran
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引用次数: 3

摘要

本研究评估了改性沥青粘合剂的性能,以及加入3vol %和6vol %碳酸钙(CaCO3)、线性低密度聚乙烯(LLDPE)以及CaCO3和LLDPE组合制备的混合物的工程性能。通过旋转粘度计(RV)、多重应力蠕变恢复(MSCR)和弯曲梁流变仪(BBR)等一系列测试,评估了控制沥青和改性沥青粘结剂的流变特性。同时,通过四点梁疲劳试验、动模量(E*)试验和抗拉强度比(TSR)试验对沥青混合料的工程性能进行了评价。在此基础上,RV和MSCR试验结果表明,与纯沥青粘结剂相比,所有改性沥青粘结剂在更高的粘度和更高的永久变形抗力方面都有改善。除了使用CaCO3和LLDPE组合改性的沥青粘合剂外,CaCO3和LLDPE的含量越高,改性后的沥青粘合剂的回收率越高。然而,LLDPE掺入沥青粘结剂中降低了其抗热裂性。在沥青混合料中掺入碳酸钙是有益的,特别是在提高沥青混合料的抗疲劳开裂能力方面。相比之下,加入LLDPE的沥青混合料表现出更好的水分敏感性。LLDPE的加入显著提高了沥青混合料的间接抗拉强度值和抗拉强度比。
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Rheological and Mechanical Performance of Asphalt Binders and Mixtures Incorporating CaCO3 and Lldpe
This study was conducted to assess the performance of modified asphalt binders and engineering properties of mixtures prepared with incorporation 3 vol% and 6 vol% of calcium carbonate (CaCO3), linear low-density polyethylene (LLDPE), and combinations of CaCO3 and LLDPE. The rheological properties of control and modified asphalt binders were evaluated using a series of testing such as rotational viscometer (RV), multiple stress creep recovery (MSCR) and bending beam rheometer (BBR) tests. Meanwhile, four-point beam fatigue test, the dynamic modulus (E*) test and tensile strength ratio (TSR) test were conducted to assess the engineering properties of asphalt mixtures. Based on the findings, the RV and MSCR test result shows that all modified asphalt binders have improved performance in comparison to the neat asphalt binders in terms of higher viscosity and improved permanent deformation resistance. A higher amount of CaCO3 and LLDPE have led modified asphalt binders to better recovery percentage, except the asphalt binders modified using a combination of CaCO3 and LLDPE. However, the inclusion of LLDPE into asphalt binder has lowered the thermal cracking resistance. The incorporation of CaCO3 in asphalt mixtures was found beneficial, especially in improving the ability to resist fatigue cracking of asphalt mixture. In contrast, asphalt mixtures show better moisture sensitivity through the addition of LLDPE. The addition of LLDPE has significantly enhanced the indirect tensile strength values and tensile strength ratio of asphalt mixtures.
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