DURABILITY OF ASPHALT CONCRETE MIXTURE (AC-WC) USING CRUMB RUBBER WASTE AS AN ADDITIONAL MATERIAL AND PALM FRUIT ASH AS FILLER

Benny Hamdi Rhoma Putra; Alfian Malik; Ermi Hidayati; Rizqy Ridho Prakasa; Elianora Elianora

doi:10.21009/jpensil.v13i1.37742

Authors

Benny Hamdi Rhoma Putra Jurusan Teknik Sipil, Fakultas Teknik, Universitas Riau
Alfian Malik Jurusan Teknik Sipil, Fakultas Teknik, Universitas Riau
Ermi Hidayati Jurusan Teknik Sipil, Fakultas Teknik, Universitas Riau
Rizqy Ridho Prakasa Jurusan Teknik Sipil, Fakultas Teknik, Universitas Riau
Elianora Elianora Jurusan Teknik Sipil, Fakultas Teknik, Universitas Riau

DOI:

https://doi.org/10.21009/jpensil.v13i1.37742

Keywords:

Crumb Rubber, Palm Bunch Ash, Filler, Durability, AC-WC

Abstract

The mixture of road pavement layers that is commonly used in Indonesia is a mixture of Asphalt Concrete (AC-WC). Addition of wastecrumb rubber (crumb rubber) in asphalt concrete mixture is a solution for highway planning and reducing waste pollutioncrumb rubber (crumb rubber) produced from a rubber tire factory. The purpose of this research is to determine the maximum percentage addition crumb rubber (crumb rubber) in the AC-WC mixture withfiller palm fruit bunch ash and to determine the residual strength index (RSI) value of the mixture which has a durability value that meets the requirements of General Specifications for Highways 2018 Revision 2. This study uses bitumen content with the percentage of mixed wastecrumb rubber used in the determination of OAC of 0%, 3%, and 6% by weight of asphalt andfiller palm fruit bunch ash 4% by weight of one AC-WC sample. The results of this study indicate testing marshall on variations crumb rubber 0% (without crumb rubber) as a normal mixture and 3% has met the specifications while the 6% variation does not. Maximum test results on the combination crumb rubber 3% resulted in the highest stability value of 1,028.85 kg at 0.5 hour immersion. The results of the durability test showed that the RSI value with a variation of 0% and 3% only fulfilled the 3 hour immersion time.

References

Angius, E., Ding, H., & Hesp, S. A. M. (2018). Durability assessment of asphalt binder. Construction and Building Materials, 165, 264–271. https://doi.org/10.1016/j.conbuildmat.2018.01.037
Apriyadi, F. (2018). Pengaruh Beban Berlebih Kendaraan Berat Terhadap Umur Rencana Perkerasan Kaku Pada Jalan Diponegoro, Cilacap (the Influence of Heavy Vehicle Overload on Rigid Pavement Design Life of Diponegoro Road, Cilacap).
Ardiansyah, F. I., Suryono, W., Rahmawati, V., Surabaya, P. P., & Jemur Andayani, J. (2021). Perencanaan Overlay Pada Landas Pacu Di Bandar Udara H.Hasan Aroeboesman Ende. Seminar Nasionalinovasi Teknologi Penerbangan (Snitp) Tahun 2021, 1–9.
Arshad, M., & Ahmed, M. F. (2017). Potential use of reclaimed asphalt pavement and recycled concrete aggregate in base/subbase layers of flexible pavements. Construction and Building Materials, 151, 83–97. https://doi.org/10.1016/j.conbuildmat.2017.06.028
Badry, K., Malik, A., & Alwinda, Y. (2021). Pengaruh Air Gambut Terhadap Karakteristik Marshall Pada Campuran Asphalt Concrete - Binder Course (AC-BC) Yang Menggunakan Abu Tandan Sawit Sebagai Bahan Pengisi (Filler). Jurnal Online Mahasisawa FT UNRI, 8.
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
BINAMARGA. (2020). Spesifikasi Umum Bina Marga 2018 Revisi 2. Kementerian PUPR.
BPS. (2023). Statistik Kelapa Sawit Indonesia 2022.
Dumyati, A. (2015). Analisis Penggunaan Pasir Pantai Paciran Sebagai Agregat Halus Terhadap Kuat Tekan Beton. Jurnal Profil, 2(1), 8–17. https://doi.org/10.52166/dearsip.v2i1.3352
Erna Frida, G. P. D. (2017). ANALISIS KEKUATAN ASPHALT CONCRETE WEARING COURSE (AC-WC) DENGAN SERBUK BAN BEKAS SEBAGAI ZAT ADITIF. Juitech Journal, 01(1), 473–482. https://doi.org/http://dx.doi.org/10.36764/ju.v1i1.6
Fahmi, A. M., Irwan, I., & Amsuardiman, A. (2021). Analisis Pengaruh Aspal Modifikasi Dengan Penambahan Abu Cangkang Sawit Terhadap Kinerja Perkerasan Aspal. Journal of Civil Engineering Building and Transportation, 5(2), 64–68. https://doi.org/10.31289/jcebt.v5i2.5670
Farlin Rosyad, Niko Prastyo, M. K. (2017). Analisis Pengaruh Penambahan Limbah Karet Terhadap Durabilitas Dan Flexibilitas Aspal Beton (Ac-Wc). Jurnal Tekno, 14(2), 23–31. https://doi.org/10.33322/forummekanika.v7i2.202
Fithra, H. (2017). Pengaruh Jumlah Tumbukan Pada Campuran Asphalt Concrete Wearing Course (Ac-Wc) Tambahan Lateks Terhadap Sifat Marshall. Teras Jurnal, 7(1), 203–212.
Gosali, G., Jaya, H., Wulandari, P. S., & Patmadjaja, H. (2016). Pengaruh Penambahan Serbuk Ban Karet Mesh #80 Pada Campuran Laston Untuk Perkerasan Jalan Raya. Jurnal Dimensii Pratama Teknik Sipil, 5(1), 1–8.
Gunawan, B. S. (2022). Pengaruh Aspal Campuran Limbah Ban Karet. SLUMP TeS: Jurnal Teknik Sipil, 1(1), 10–20. https://doi.org/https://doi.org/10.52072/slumptes.v1i1.280
Halim, I. H., & Sepriyanna, I. (2022). PENGARUH SERBUK BAN BEKAS SEBAGAI BAHAN TAMBAH PADA CPHMA DENGAN VARIASI SUHU PEMADATAN TERHADAP KARATERISTIK MARSHALL. Construction and Material Journal, 4(2), 83–89. https://doi.org/10.32722/cmj.v4i2.4593
Hamzah, M. O., Omranian, S. R., & Golchin, B. (2015). A Review on the Effects of Aging on Properties of Asphalt Binders and Mixtures. Caspian Journal of Applied Sciences Research, 4(6), 15–34.
Hamzami. (2023). PENGARUH SUBSTITUSI TANAH DIATOME SEBAGAI FILLER TERHADAP KEGAGALAN RETAK BERDASARKAN NILAI TEGANGAN REGANGAN PERKERASAN BETON ASPAL. Jurnal Teknologi Terapan & Sains 4.0, 4(3), 1–10. https://doi.org/https://doi.org/10.29103/tts.v4i3.15154
Haris, H. (2019). Analisis Pengujian Stabilitas dan Durabilitas Campuran Aspal dengan Tes Perendaman. Jurnal Linears, 2(1), 33–47. https://doi.org/10.26618/j-linears.v2i1.3026
Laila, N., Dian Kurniasari, F., & Amin, A. (2022). Pemanfaatan Abu Cangkang Sawit (ACS) Untuk Subtitusi Filler Pada Lapisan Asphalt Concrete Wearing Course (AC-WC). 1(1), 1–10.
LaMonaca, S., & Ryan, L. (2022). The State of Play in Electric Vehicle Charging Services – A Review of Infrastructure Provision, Players, and Policies. Renewable and Sustainable Energy Reviews, 154(September 2021), 111733. https://doi.org/10.1016/j.rser.2021.111733
Memon, S. A., Shah, S. F. A., Khushnood, R. A., & Baloch, W. L. (2019). Durability of sustainable concrete subjected to elevated temperature – A review. Construction and Building Materials, 199, 435–455. https://doi.org/10.1016/j.conbuildmat.2018.12.040
Nugroho, M. S. (2019). Karakteristik Marshall Quotient Pada Hot Mix Asphalt Menggunakan Agregat Alam Sungai Opak. INERSIA: LNformasi Dan Ekspose Hasil Riset Teknik SIpil Dan Arsitektur, 15(2), 84–91. https://doi.org/10.21831/inersia.v15i2.28627
Oemiati, N. (2017). Analisa Penggunaan Tanah Kerikil Terhadap Peningkatan Daya Dukung Tanah Untuk Lapisan Konstruksi Perkerasan Jalan Raya. Jurnal Penelitian Dan Kajian Teknik Sipil, 5(1), 1–5. https://doi.org/https://doi.org/10.32502/jbearing.698201751
Othman, K. M. M., & Abdelwahab, H. (2021). Prediction of the optimum asphalt content using artificial neural networks. Metallurgical and Materials Engineering, 27(2), 227–242. https://doi.org/10.30544/579
Pan, P., Kuang, Y., Hu, X., & Zhang, X. (2018). A comprehensive evaluation of rejuvenator on mechanical properties, durability, and dynamic characteristics of artificially aged asphalt mixture. Materials, 11(9). https://doi.org/10.3390/ma11091554
Prapti, L., Suryawardana, & Triyani, E. (2015). Analisis Dampak Pembangunan Infrastruktur Jalan Terhadap Di Kota Semarang. Jurnal Dinamika Sosbud, Vol 17, No, 82–103.
Pratama, F. D., Bunyamin, & Kurniasari, F. D. (2021). ISSN 2407-9200 (Online) Universitas Abulyatama Jurnal Teknik Sipil Unaya. Jurnal Teknik Sipil Unaya, 7(2), 123–134.
Purnomo, W., Evaldo, B., & Suparma, L. B. (2015). Pemanfaatan crumb rubber (serbuk karet roda). Prosiding FSTPT, II(2), 22–24.
Putri, L. R., Widiastuti, M., & Alkas, M. J. (2022). Pengaruh Penggunaan Crumb Rubber Dengan Material Senoni Dan Filler Batu Senoni Terhadap Nilai Karakteristik Marshall Asphalt Concrete – Binder Course (Ac-Bc). Teknologi Sipil : Jurnal Ilmu Pengetahuan Dan Teknologi, 6(1), 21. https://doi.org/10.30872/ts.v6i1.7720
Rahman, F., & Fathurrahman, F. (2017). Pemanfaatan Hasil Pembakaran Limbah Cangkang Kelapa Sawit sebagai Bahan Pengganti Pasir pada Pembuatan Beton Normal. Media Ilmiah Teknik Sipil, 6(1), 30–40. https://doi.org/10.33084/mits.v6i1.259
Ritonga, A. H., Ilmu, U., Sari, K., Indonesia, M., Ilmu, U., Sari, K., & Indonesia, M. (2019). Ikatan Kimia Antara Aspal Dengan Polimer. Jurnal Kesehatan Masyarakat Dan Lingkungan Hidup, 2(2).
Saikia, N., & Brito, J. de. (2009). USE OF INDUSTRIAL WASTE AND MUNICIPALITY SOLID WASTE AS AGGREGATE, FILLER OR FIBER IN CEMENT MORTAR AND CONCRETE. In M. C. Wythers (Ed.), Advances in Materials Science Research (Vol. 3, Issue 2010, pp. 1–36). Nova Science Publishers, Inc.
Sari, K. N. I., Maliki, A., & Suharso, A. B. K. (2022). Pemanfaatan Campuran Limbah Karet Ban Dengan Filler Abu Kerang Simping Pada Aspal Beton. Axial : Jurnal Rekayasa Dan Manajemen Konstruksi, 10(1), 025. https://doi.org/10.30742/axial.v10i1.2173
Sentosa, L., Putra, A. I., & Mufriadi. (2005). Karakteristik Laston Menggunakan Bahan Pengisi Abu Sawit. Jurnal Transportasi, 5(1), 49.
Sukirman, S. (2010). Perencanaan Tebal Struktur Perkerasan. In Nova (1st ed., Vol. 1). Nova.
Suyuti, M. M., Program, M., Teknik, S., & Utara, G. (2014). Menggunakan Metode Bina Marga Pada Ruas Jalan Gorontalo-Limboto. RADIAL JURNAL, 2(2), 135–154. https://doi.org/https://doi.org/10.37971/radial.v2i2.55
Tahir, A. (2019). KARAKTERISTIK CAMPURAN BETON ASPAL (AC-WC) DENGAN MENGGUNAKAN VARIASI KADAR FILLER ABU TERBANG BATU BARA. Jurnal Smartek, 7(4), 77.
Winayati, W., Lubis, F., & Haris, V. T. (2017). Pengaruh Filler Abu Tandan Sawit Terhadap Karakteristik Marshal Pada Campuran Ac-Bc. SIKLUS: Jurnal Teknik Sipil, 3(1), 19–26. https://doi.org/10.31849/siklus.v3i1.370
Wu, W., Jiang, W., Yuan, D., Lu, R., Shan, J., Xiao, J., & Ogbon, A. W. (2021). A review of asphalt-filler interaction: Mechanisms, evaluation methods, and influencing factors. Construction and Building Materials, 299(13). https://doi.org/https://doi.org/10.1016/j.conbuildmat.2021.124279