Nano-Silica modifier asphalt concrete under rutting resistance and shape memory component
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Published:2021-02-01
Issue:1
Volume:682
Page:012041
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ISSN:1755-1307
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Container-title:IOP Conference Series: Earth and Environmental Science
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language:
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Short-container-title:IOP Conf. Ser.: Earth Environ. Sci.
Author:
Mohammed A A,Mwangi P M,Anwar M P,Leong L T,Jayaprakash J,Ramadhansyah P J,Mohamed Jaafar Z F,Mashros N
Abstract
Abstract
Permanent deformation is pavement distress that has been the root cause of failure of roads globally. With the formation of a rut, follows cracking which inevitably damages the asphalt and sub-base layers. To curb the rutting distress, this study investigates the use of nanosilica, miniaturized silica particles to the power of 10-9 to modify the binder of the asphalt concrete. The nano-silica was added at 4%, 6% and 15% by weight of bitumen into the asphalt mixture. Marshall Mix design method was used to prepare the forty-eight samples used in the study. Repeated Load Permanent Deformation (RLPD) test and Shape Memory (SM) were performed at two temperatures (25°C and 40°C). It was found that the rutting resistance and shape memory had the best performance with the addition of 15% nano-silica at 40°C. Addition of nano-silica at 15% by weight of bitumen had the best amelioration of not only permanent deformation resistance but also shape retention thus enhancing pavement performance.
Subject
General Engineering
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