从含有回收成分的现场岩心中提取的沥青粘合剂的性能评价:荷载和非荷载相关的抗开裂性

Eslam Deef-Allah, M. Abdelrahman
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引用次数: 0

摘要

由于其环保和经济的优点,用回收成分改性沥青混合料是一种常见的做法。然而,由于再生沥青瓦(RAS)中的氧化气吹沥青粘结剂和再生沥青路面(RAP)中的老化粘结剂,在沥青混合料中采用RAP和/或RAS作为再生组分会影响这些混合料中整体沥青粘结剂的性能。沥青混合料中原始沥青粘结剂(VABs)的再生组分百分比和性能等级(PG)决定了整个沥青粘结剂的性能。因此,本研究的主要思想是研究VABs中RAP/RAS和pg的百分比对从现场岩心中提取的沥青粘合剂(EABs)的载荷和非载荷相关抗裂性的影响。对EABs进行了流变试验,以评估其抗载荷相关开裂(疲劳开裂)和非载荷相关开裂(低温和块状开裂)的能力。VAB的PGs、混合物的年龄和RAP/RAS的百分比影响了eab的抗裂性。与RAP含量较低的EABs相比,在沥青混合物中使用RAS可以提高EABs的抗疲劳性和块体开裂性。然而,RAS的使用降低了EABs的低温开裂性能。沥青混合料中RAP含量的增加会降低EABs的抗裂性能。在EABs的载荷和非载荷相关的抗裂性之间建立了很强的关系。
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Performance Evaluation of Extracted Asphalt Binders from Field Cores Containing Recycled Components: Load- and Non-Load-Associated Cracking Resistance
Modifying asphalt mixtures with recycled components is common practice due to their environmental and economic merits. However, due to the oxidized air-blown asphalt binders in recycled asphalt shingles (RAS) and aged binders in reclaimed asphalt pavement (RAP), adopting RAP and/or RAS as recycled components in asphalt mixtures influences the performance of the overall asphalt binder in these mixtures. The percentages of recycled components and performance grade (PG) of virgin asphalt binders (VABs) in the asphalt mixtures govern the performance of the overall asphalt binder. Therefore, the main idea of this study was to investigate the effect of the percentages of RAP/RAS and PGs of the VABs on the load- and non-load-associated cracking resistance of the extracted asphalt binders (EABs) from field cores. Rheological tests were performed on the EABs to assess the load-associated cracking (fatigue cracking) and non-load-associated cracking (low-temperature and block cracking) resistance. The VAB's PGs, mixtures' ages, and the percentages of RAP/RAS affected the EABs' cracking resistance. When compared to EABs from mixtures with lower amounts of RAP, employing RAS in the asphaltic mixtures improved EABs' resistance to fatigue and block cracking. However, using RAS deteriorated EABs' resistance to low-temperature cracking. Increasing the RAP's percentage in the asphaltic mixtures decreased the cracking resistance of the EABs. Strong relationships were established between EABs' load- and non-load-associated cracking resistance.
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