Investigating the Dynamic Creep of Polymer Modified Hot Mix Asphalt-Reference-Cited by-同舟云学术

Investigating the Dynamic Creep of Polymer Modified Hot Mix Asphalt

Published:2024-06-01 Issue:1 Volume:20 Page:387-396
ISSN:2199-6512
Container-title:Civil and Environmental Engineering
language:en
Short-container-title:

Author:

Suleiman Ghassan¹,Aodah Haider Habeeb.²,Hanandeh Shadi³,Ergun Murat⁴,Salim Reem Abu³,Qtiashat Deya¹

Affiliation:

1. Department of Civil Engineering , Munib and Angela Masri Faculty of Engineering, Aqaba University of Technology , Aqaba , Jordan .

2. Department of Civil Engineering, Faculty of Engineering , University of Thi-Qar , Thi-Qar , Iraq .

3. Department of Civil Engineering, Faculty of Engineering , Al-Balqa Applied University , Al- Salt , Jordan .

4. Department of Civil Engineering, Faculty of Civil Engineering , Technical University of Istanbul , Istanbul , Turkey .

Abstract

Abstract Jordan's road network continues to deteriorate as a consequence of the continuous increase in traffic and the absence of adequate maintenance work. The primary objective of this study was to enhance HMA performance by using polymer-modified asphalt mixtures. The polymer modifier known commercially as Eastman (EE-2) was mixed with binder penetration grade (60–70) at a ratio of 12%. In order to investigate the performance of polymer, the dynamic creep, the resilient modulus and the stability-flow tests were performed. Marshall Mix design was utilized to prepare a total of 50 samples, of which 20 were used to determine the optimal binder content, and the remaining samples were used to determine the effect of EE-2 modifier on asphalt mixtures. The results showed that the optimal asphalt content was 4.57 percent and revealed that the addition of EE-2 polymer to asphalt cement contributed to the production of a variety of desirable properties. The most important indicator of these developments is increased rutting resistance. For instance, the total permanent deformation has decreased by 87% (8500 to 1000 μm). Conversely, addition of EE-2 has resulted in a threefold increase in the resilience modulus (from 3632 to 10590 MPa). Finally, effect of the EE-2 polymer on the stability was demonstrated by increasing the stability value by about 52%

Publisher

Walter de Gruyter GmbH

Link

https://www.sciendo.com/pdf/10.2478/cee-2024-0030

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