SUPERPAVE design mixture performance evaluation using Epolene modifier for cold semi-arid climatic region of Saudi Arabia

Q3 Materials Science

Archives of materials science and engineering Pub Date : 2021-12-01 DOI:10.5604/01.3001.0015.6285

M. Dahim, M. Mosaby, R. El Morabet, R. A. Khan, S. AlQadhi, N. Khan, N. Ben Kahla, I. Neklonskyi, L. Borysova

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Abstract

Purpose: To evaluate the superpave design performance using Epolene (EE-2) as modifier, since SUPERPAVE design is a modified and sophisticated aspect as compared to previous mix design for asphalt mixtures. This is primarily due to the fact that superpave design mix also takes into consideration properties of materials beside asphalt. Design/methodology/approach: This study was conducted using Epolene (EE-2) as modifier in order to evaluate the performance of SUPERPAVE suitability for construction of roads in Alfaraa campus (King Khalid University) Abha, in Asir Province of Saudi Arabia. Glow number test, dynamic modulus test and indirect tensile strength test were conducted to evaluate the performance of EE-2 modifier against the control mixture. Findings: The mixture modified with EE-2 gave better performance in terms of temperature-based performance and resistance to moisture damage. Also, larger values of E*/sinφ were obtained for EE-2 modified mixture at various loading frequencies and temperature in comparison to control mixture. Research limitations/implications: The Epolene modifier successfully enhances and improves the SUPERPAVE mixture performance. Further studies are required to evaluate the performance of EE-2 modifier at much lower temperature ranges. Practical implications: The results of the study allow us to recommend the investigated asphalt mixture for applied for the construction of roads in the Alfaraa (new campus of King Khalid University), Abha, Asir province, Saudi Arabia. Originality/value: A modified asphalt mixture has been proposed that has better performance at higher and lower temperatures. The developed asphalt mixture is more resistant to moisture damage than the compared to control mixture.

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使用Epolene改性剂对沙特阿拉伯寒冷半干旱气候区的SUPERPAVE设计混合料性能评估

目的：评估使用Epolene（EE-2）作为改性剂的超级路面设计性能，因为与以前的沥青混合料配合比设计相比，超级路面设计是一个改进和复杂的方面。这主要是因为超级路面设计配合比也考虑了沥青以外材料的特性。设计/方法/方法：本研究使用Epolene（EE-2）作为改性剂，以评估SUPERPAVE在沙特阿拉伯阿西尔省Alfaraa校区（哈立德国王大学）Abha道路施工中的适用性。通过辉光数试验、动态模量试验和间接拉伸强度试验评价了EE-2改性剂对对照混合物的性能。研究结果：用EE-2改性的混合物在基于温度的性能和抗潮湿损伤方面具有更好的性能。此外，与对照混合物相比，在不同的加载频率和温度下，EE-2改性混合物获得了更大的E*/sinφ值。研究局限性/启示：Epolene改性剂成功地增强和改善了SUPERPAVE混合物的性能。需要进一步的研究来评估EE-2改性剂在更低温度范围下的性能。实际意义：研究结果使我们能够推荐所研究的沥青混合料用于沙特阿拉伯阿西尔省阿布哈Alfaraa（哈立德国王大学新校区）的道路建设。来源/价值：已提出一种改性沥青混合料，在更高和更低的温度下具有更好的性能。与对照混合料相比，开发的沥青混合料更能抵抗水分损伤。

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来源期刊

Archives of materials science and engineering Materials Science-Materials Science (all)

CiteScore

2.90

自引率

0.00%

发文量