PENGARUH MATERIAL LOKAL KEDIRI TERHADAP TINGKAT DURABILITAS LAPIS STRUKTUR JALAN

Achmad Khabib Kurnia, Andri Dwi Cahyono, Imam Mustofa, Evita Fitrianis Hidiyati, Ricco Dwi Yuliawan, Tantra Tegar Permady, Achmad Fikri Haikal, Dwi Nur Khayatin, Audy Yoga Pratama

Abstract

Air conditioning or asphalt concrete is formed from coarse aggregate, fine aggregate, and asphalt. An aggregate is a collection of grains of crushed stone, gravel, sand, and other minerals in the form of both natural and artificial products. Coarse aggregate is sieve holder No. 8 (2.36 mm) retained aggregate while fine aggregate is sieve No. 8 (2.36 mm) passed aggregate. The problems that often occur in road pavement layers are poor durability and surfaces that are easy to wear out. This study aimed to find the maximum marshall value in the form of 60/70 penetration asphalt mixture stability. This study used an experimental method with a laston AC-BC test, the test was carried out with abrasion, gradation, specific gravity, and Marshal testing tests using marshal test equipment, following SNI 06-2489-1991, or AASHTO T245-90, or ASTM D1559-76. Using aggregates from the Kedak area, stability results of 3046, 4896, 3754 were obtained, which met the standards of the Bina Marga specifications standards. So that the aggregate from the Kedak area can be used as an alternative constituent material in road planning in the Kediri area because it is more efficient and has good durability.

Keywords

Aggregate, Marshall, Specific Gravity, Stability

Full Text:

PDF

References

Amzari, M. L., Mubarok, M. I., & Saputra, M. F. (2022). The Spirit of Society Journal. 6(1), 21–31. Anam, S., & Pratikto, H. (2018). Pengujian Perkerasan Aspal Porus Dengan Penambahan Tread Ban Bekas Pada Uji Marshall. Ukarst : Jurnal Universitas Kadiri Riset Teknik Sipil, 2(2), 154–163.

Bancin, E. D. L., Lubis, K., & Mahda, N. (2021). Pengaruh Penggunaan Tanah Merah Sebagai Filler Pada Campuran Aspal Ac-Bc Terhadap Nilai Marshall. Journal of Civil Engineering Building and Transportation, 5(1), 17–25. https://doi.org/10.31289/jcebt.v5i1.5072 Bina Marga. (2010). Spesifikasi umum 2010. Direktorat Jendral Bina Marga, 2010(Revisi 3), 1–6.

Candra, A. I., Romadhon, F., Azhari, F. M., & Hidiyati, E. F. (2022). Increasing Compressive Strength of The Red Brick with Fly Ash and Rice Husk Ash. Jurnal Teknik Sipil Dan Perencanaan, 24(2), 107–117. https://doi.org/10.15294/jtsp.v24i2.35855

EL-Sayed, S. A., & Mostafa, M. E. (2014). Analysis of Grain Size Statistic and Particle Size Distribution of Biomass Powders. Waste and Biomass Valorization, 5(6), 1005–1018. https://doi.org/10.1007/s12649-014-9308-5

Guncoro, A., Ridwan, A., S.P, Y. C., & Candra, A. I. (2019). Prebandingan Stabilitas Aspal Menggunakan Agregat Kasar Batu Belah Dan Batu Gamping. Jurnal Manajemen Teknologi & Teknik Sipil, 2(2), 310. https://doi.org/10.30737/jurmateks.v2i2.531

Loaiza, A., & Colorado, H. A. (2018). Marshall stability and flow tests for asphalt concrete containing electric arc furnace dust waste with high ZnO contents from the steel making process. Construction and Building Materials, 166, 769–778. https://doi.org/10.1016/j.conbuildmat.2018.02.012

Mahardika Kamalika K, Agata Iwan C, Elsa Riski P, R. W. I. (2021). Easy Way To Determine The Feasibility of coarse Aggregate On All Pavement Layers Using The Los Angeles Tatonas TA-700 Machine. Ukarst : Universitas Kadiri Riset Teknik Sipil, 5(2). https://doi.org/10.1080/19648189.2019.16905

Meihizkia dkk. (2018). Kuat Tekan Beton Menggunakan Agregat Halus Sungai Benlelang Dan Sungai Lembur Serta Agregat Kasar Sungai Lembur. Jurnal Teknik Sipil, 7(1), 31–36.

Muaya, G. S., Kaseke, O. H., & Manoppo, M. R. E. (2015). Pengaruh Terendamnya Perkerasan Aspal oleh Air Laut yang Ditinjau Terhadap Karakteristik Marshall. Jurnal Sipil Statik, 3(8), 562–570.

Nasional, B. S. (2008). Sni 2417-2008 Cara uji keausan agregat dengan mesin abrasi Los Angeles (pp. 1–9).

Rahman, S., Abul, M., & Azad, K. (2020). Effect On Properties Of Coarse Aggregate with respect to Different Sources. January.

Rio Rahma Dhana, N. A. P. (2019). Alternatif Penggunaan Kerikil Gunung Pegat Sebagai Bahan Perkerasan Jalan Raya. UKaRsT, 3(2), 131–139.

Siregar, R. S. (2017). Perbandingan Penggunaan Limbah Karbit Dan Abu Batu Sebagai Filler Terhadap Campuran Aspal Pada Lapisan Asphalt Treated Base (ATB)(Studi Penelitian).

Sowolino, B. O., Mujahid, Z., Hadi, P. L., & Wimpy Santosa. (2019). Review of Changes in the Road Supervision Manual of the Directorate General of Highways, issued a Circular of the Director General of Highways. Jurnal Transportasi, 19(3), 151–160.

Sutrisna, I. G. U. H. (2020). ANALISIS BERAT JENIS DAN BESAR PENYERAPAN AGREGAT KASAR rial Pringga Baya Kab. Lombok Timur Dan Material dari Slowjan Kab. Lombok Tengah. JURNAL SANGKAREANG MATARAM, 6(1), 1–5.

Tarigan, G. (2019). Pengaruh Penggunaan Agregat Alam Pada Campuran Aspal Beton Terhadap Marshall Properties. Seminar Nasional Teknik (SEMNASTEK) UISU, 2(1), 170–173.

Teymen, A. (2019). Estimation of Los Angeles abrasion resistance of igneous rocks from mechanical aggregate properties. Bulletin of Engineering Geology and the Environment, 78(2), 837–846. https://doi.org/10.1007/s10064-017-1134-0

Winarto, S. (2018). Pemanfaatan Serat Ijuk Sebagai Material Campuran Dalam Beton Untuk Meningkatkan Kemampuan Beton Menahan Beban Tekan Studi Kasus: Pembangunan Homestay Singonegaran Kediri. U Karst, 1(1), 1–10.

Refbacks

  • There are currently no refbacks.