Variasi Temperatur Pencampuran terhadap Parameter Marshall pada Campuran Lapis Aspal AC-BC
DOI:
https://doi.org/10.61132/konstruksi.v2i4.509Keywords:
Aggregate, Mix characteristics, Asphalt Concrete AC-BC, KAOAbstract
Mixing temperature has an important role in the performance of the asphalt mixture that has been made. If the mixing temperature is too low and causes the viscosity value to be high, it will make it difficult to carry out asphalt mixing and was studied in the laboratory for two months which aims to determine the effect of mixing temperature variations on the value of marshall parameters and determine the effect of temperature variations on the performance of AC-WC asphalt pavement mixing. Characteristics of Temperature Variations in AC-BC asphalt mixtures for temperature variations of 140, 150 and 160, from the results of testing vim at a temperature of 160 with a value of 6.63 does not meet specifications, at a VFB value at a temperature of 160 does not meet specifications with a VFB value of 64.25, for the value of stablity, VMA, flow, MQ all meet specifications. so it can be concluded that the greater the temperature can make the asphalt mixture ineffective or the quality of the AC-BC asphalt decreases. The effect of temperature variation on AC-BC asphalt mixture is not optimal because the greater the temperature parameter can reduce the quality of AC-BC. The results of the proof of the marshal test of several temperature variations that do not meet the specifications make some marsall tests not pass specifications and density results that are not solid.
References
Arthur, W. P. S., dkk. (2003). Proyek jalan: Teori dan praktek. Erlangga.
Bazar Asmawi. (2020). Durabilitas campuran aspal AC-BC terhadap perubahan suhu. Jurnal Sesiminasi Teknologi, 8(1), 76–89.
Khairani, C., Saleh, S. M., & Sugiarto, S. (2018). Uji Marshall pada campuran asphalt concrete binder course (AC-BC) dengan tambahan parutan ban bekas. Jurnal Teknik Sipil, 1(3), 559–570. https://doi.org/10.24815/jts.v1i3.9995
Lucia, N. (2022). Pengaruh viskositas. Jurnal Teknik Sipil, 3(1).
Ma’ruf, A., & Marianti, A. (2022). Optimasi produksi aspal hotmix dengan pendekatan triangular fuzzy number. Prosiding SEMSINA, 3(1), 98–105. https://doi.org/10.36040/semsina.v3i1.5023
Nofrianto, H., Wahab, W., Syofian, N., & Wardi, S. (2021). Kajian bahan pengisi (filler) pada campuran panas aspal agregat (AC-BC). Menara Ilmu, XV(01), 56–66. https://jurnal.umsb.ac.id/index.php/menarailmu/article/view/2381
Rahwamati. (2002). Metode pengujian dengan Marshall. Jurnal Teknik Sipil, 68–74.
Refi, A. (2021). Efek pemakaian pasir laut sebagai agregat halus pada campuran aspal panas (AC-BC) dengan pengujian Marshall. Jurnal Teknik Sipil, 3(2), 6.
Spesifikasi Bina Marga. (2018). Ketentuan sifat-sifat campuran.
Sukirman, S. (2016). Beton aspal campuran panas. Institut Teknologi Nasional.
Utama, G. S., & Febriani, S. N. (2014). Pengaruh penggunaan batu kapur sebagai pengganti agregat halus pada campuran aspal beton (AC-BC). PILAR Jurnal Teknik Sipil, 10(2), 99–106.
Winayati, W., Lubis, F., & Haris, V. T. (2017). Pengaruh filler abu tandan sawit terhadap karakteristik Marshall pada campuran AC-BC. SIKLUS: Jurnal Teknik Sipil, 3(1), 19–26. https://doi.org/10.31849/siklus.v3i1.370
Yuniarti, R., Mahendra, M., Karyawan, I. A., Widianty, D., & Hasyim, H. (2022). Pengaruh viskositas aspal modifikasi limbah styrofoam dan limbah PVC terhadap sifat volumetrik campuran laston. Spektrum Sipil, 9(2), 143–150. https://doi.org/10.29303/spektrum.v9i2.247
Zahara, N. A., Kurniawati, I., & Fatikasari, A. D. (2023). Analisa pengaruh variasi tumbukan pada lapisan aspal AC-BC terhadap nilai stabilitas dan flow. Rekayasa: Jurnal Teknik Sipil, 7(2). http://36.88.105.228/index.php/jurnal_rekayasa_teknik_sipil/article/view/1805
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