DOI: https://doi.org/10.14710/mkts.v29i2.53190

Perilaku Rutting dan Modulus Kekakuan dengan Penguatan Serat Ijuk pada Campuran Beton Aspal

Rutting Behavior and Stiffness Modulus with Palm Fiber Reinforcement in Asphalt Concrete Mixtures

*Andi Alifuddin  -  Program Studi Teknik Sipil, Fakultas Teknik, Universitas Muslim Indonesia, Indonesia
Muhammad Ridha Kasim  -  Program Studi Teknik Sipil, Fakultas Teknik, Universitas Muslim Indonesia, Indonesia
Lambang Basri Said  -  Program Studi Teknik Sipil, Fakultas Teknik, Universitas Muslim Indonesia, Indonesia

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Abstract
Reinforcement of sugar palm fibers in asphalt concrete mixtures to increase strength and flow index due to increased traffic loads and temperature effects in order to reduce the potential for permanent deformation. The purpose of this research is to assess the extent of the influence of jute fiber as a reinforcing material in enhancing the cohesive and tensile strength of asphalt concrete mixtures, particularly in response to temperature changes. This research was conducted using an experimental method in the laboratory, employing jute fiber based on an optimum percentage of 0.6%, with a length of 8 mm, and tested under various temperature conditions. The test results indicate that asphalt concrete mixture reinforced with jute fiber (DP) has a total deformation of 1.09 mm at a testing temperature of 40°C. Its deformation rate is 0.0033 mm/minute, which is smaller compared to the asphalt concrete mixture without jute fiber (TS) with a total deformation of 1.19 mm and a deformation rate of 0.0040 mm/minute at the same temperature. At 60°C, the asphalt concrete mixture with jute fiber (DP) shows a total deformation of 1.83 mm with a deformation rate of 0.0107 mm/minute, while without jute fiber, the total deformation is 2.00 mm with a deformation rate of 0.0113 mm/minute. In the results, the indirect tensile strength of the asphalt concrete mixture without using palm fiber was lower, the stiffness of the mixture was lower than that of using palm fiber and decreased linearly with increasing temperature.

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Subject Deformasi; Indeks Kelelehan; Laju Deformasi; Modulus Kekakuan; Serat ijuk.
Type Analisis Data
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Keywords: Deformation; deformation rate; flow index; palm fiber; stiffness modulus

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