MARSHALL TEST CHARACTERISTICS OF ASPHALT CONCRETE MIXTURE WITH SCRAPPED TIRE RUBBER AS A FINE AGGREGATE

Authors

  • Gito Sugiyanto Civil Engineering Department, Faculty of Engineering, Jenderal Soedirman University. Jln. Mayjend. Sungkono, Km. 5, Blater, Kalimanah, Purbalingga, Central Java, Postcode 53371, Indonesia

DOI:

https://doi.org/10.11113/jt.v79.6965

Keywords:

Asphalt concrete mixture, scrapped tire rubber, Marshall test, aggregate substitute

Abstract

Highways are important transportation infrastructures that influence economy, culture, and security. Most of the highways in Indonesia are flexible pavement that use asphalt as a binder. The use of scrapped tire rubber as a partial replacement of fine aggregates is based on the limited available natural aggregate in nature. Utilization of scrapped tire rubber as a fine aggregate is one of the alternatives for reducing environmental pollution and supporting Clean Development Mechanism program. The aim of this study is to analyze the Marshall test characteristics of asphalt concrete (AC) mixture that use scrapped tire rubber as a partial substitute of fine aggregate and comparing with a standard mixture. Laboratory tests are performed on three different types of mixtures as follows the mix without scrapped tire rubber, mix containing 50%, and 100% substitution of aggregate at fraction of No.50 with scrapped tire rubber. The test, it show that optimum asphalt content for ACStandard mixture is 6.76%, while ACScrapped-tire 50% mixture is 7.04% and ACScrapped-tire 100% mixture is 6.25%. The use of scrapped tire rubber in asphalt concrete mixtures can improve the resistance to permanent deformation and resistance to water. The use of scrapped tire rubber is acceptable as a partial replacement of aggregate in asphalt concrete mixtures.  

Author Biography

  • Gito Sugiyanto, Civil Engineering Department, Faculty of Engineering, Jenderal Soedirman University. Jln. Mayjend. Sungkono, Km. 5, Blater, Kalimanah, Purbalingga, Central Java, Postcode 53371, Indonesia
    Transportation, Civil Engineering

References

Sugiyanto, G. 2008. Kajian Karakteristik Campuran Hot Rolled Asphalt akibat Penambahan Limbah Serbuk Ban Bekas. Jurnal Teknik Sipil. Universitas Atma Jaya Yogyakarta, Indonesia. 8(2): 90-103.

Sugiyanto, G., A. Hermawan, and B. Mulyono. 2015. The Characteristics of Asphalt Concrete-Binder Course (AC-BC) Mixture with Bottom Ash as an Aggregate Substitute. Civil Engineering Dimension. Petra Christian University Surabaya, East Java, Indonesia. 17(1): 29-37.

Ministry of Finance Republic of Indonesia. 2014. Anggaran Pendapatan dan Belanja Negara (APBN) Tahun 2014. Retrieved on 2014-12-27 http://www.kemenkeu.go.id/sites/default/files/Advertorial%20APBN%202014_061213.pdf.

Sjahdanulirwan, M. 2007. Pemanfatan Teknologi dalam Peningkatan Peranan Teknik Sipil. Prosiding Seminar Nasional Teknik Sipil. Maranatha Christian University, Bandung, West Java, Indonesia. June 2007: 6-9.

ETRMA. 2006a. End-of-Life Tires, European Tire and Rubber Manufactures Association, Brussel. http://www.etrma.org/ Retrieved on 2014-10-15.

ETRMA. 2006b. End of Life Tires-A Valuable Resource with a Wealth of Potential. Report 2006, European Tire and Rubber Manufactures Association, Brussel.

Rubber Manufacturer’s Association. 2000. NW Suite 900, Washington D.C.

Tantala, M. W., J. A. Lepore, and I. Zandi. 1996. Quasi-Elastic Behavior of Rubber Included Concrete. Proceedings 12th International Conference on Solid Waste Technology and Management. Philadelphia.

Naik, T. R. and R. Siddique. 2002. Properties of Concrete containing Scrap Tire Rubber-An Overview. Report No. CBU-2002-06 REP-459, February 2002, Department of Civil Engineering and Mechanics, College of Engineering and Applied Science. The University of Wisconsin-Milwaukee.

Cheng, C., S. Pouffary, N. Svenningsen, and M. Callaway. 2008. The Kyoto Protocol, the Clean Development Mechanism, and the Building and Construction Sector-A. Report for The UNEP Suistanable Buildings and Construction Initiative. United Nations Environment Programme (UNEP), Paris, France, 2008. Retrieved on 2014-12-25. http://www.unep.org/sbci/pdfs/BuildingsandCDMreporte-version.pdf.

Ministry of Public Works Republic of Indonesia. 2006. Campuran Beraspal Panas. Buku V Spesifikasi, Seksi 6.3 Spesifikasi Umum Jalan dan Jembatan. Jakarta: Ministry of Public Works.

American Associate of State Highway and Transportation Officials (AASHTO). 1982. Standard Specifications for Transportation Materials of Sampling and Testing Part 2. Washington DC.

Kennedy, T. W. 2000. Characterization of Asphalt Pavement Material Using The Indirect Tensile Strength. Proceeding Association of Asphalt Paving Technology. San Antonio, Texas, U.S.A. 46: 132-150.

Edeskar, T. 2006. Use of Tire Shreds in Civil Engineering Applications Technical and Environmental Properties. Doctoral Thesis. Department of Civil and Environmental Engineering, Luleå University of Technology.

ASTM D6270-08. 2012. Standard Practice for Use of Scrap Tires in Civil Engineering Applications. ASTM International, West Conshohocken, PA, 2012. www.astm.org.

Kurniati, N. 2005. Karakteristik Campuran Beton Aspal dengan Substitusi Ban Bekas sebagai Agregat. Civil Engineering: Transportation Engineering, Magister Program, Bandung Institute of Technology, West Java, Indonesia. Retrieved on 2014-04-16: www.itb.ac.id.

Aprina, W. and Silfiani. 2005. Karakteristik Marshall dan Evaluasi Kadar Aspal Optimum Campuran Hot Rolled Sheet dengan Serbuk Ban Bekas sebagai Bahan Tambah. Undergraduate Program. Civil Engineering Department, Bandung Institute of Technology, West Java, Indonesia, 2005. Retrieved on 2014-04-16: www.itb.ac.id.

Kusumawati, A. and B.I Siswosoebrotho. 2001. Kinerja Campuran Beton Aspal yang Menggunakan Serbuk Ban Bekas sebagai Bahan Tambah Aspal. Proceeding of the 4th Inter-University of Transportation Study Forum (FSTPT) Symposium. Bali: Udayana University Indonesia.

Iriansyah, A. S. and M. Sjahdanulirwan. 1995. The Utilizing of Natural and Used Rubber for Improving Asphalt Pavement Performance in Indonesia. Proceeding of the Second International Conference on Road and Airfield Pavement Technology. Singapore.

Ismunandar. 2006. Kimia Aspal. Harian Kompas edisi Jumat 7 April 2006.

Reddy, K.R., A. Marella, and T.D. Stark. 2005. Clogging Potential of Shredded Scrap Tire Drainage Layer in Landfill Cover Systems. Proceeding International Conference on Energy, Environment and Disasters-INCED 2005. Charlotte.

Euniza, J., M. N. Hasanan, P. J. Ramadhansyah, H. Zaiton, and M. Azman. 2014. Effect of Using Waste Tire Rubber on the Properties of Double Layer Rubberized Concrete Paving Blocks. Jurnal Teknologi (Sciences & Engineering). 71(3): 1-5.

Standar Nasional Indonesia (SNI) 1969:2008. 2008. Cara Uji Berat Jenis dan Penyerapan Air Agregat Kasar. Jakarta: Badan Standardisasi Nasional (BSN) Indonesia.

Standar Nasional Indonesia (SNI) 2417:2008. 2008. Cara Uji Keausan Agregat dengan Mesin Abrasi Los Angeles. Jakarta: Badan Standardisasi Nasional (BSN) Indonesia.

Standar Nasional Indonesia (SNI) 03-2439-1991. 1991. Metode Pengujian Kelekatan Agregat terhadap Aspal. Jakarta: Badan Standardisasi Nasional (BSN) Indonesia.

Standar Nasional Indonesia (SNI) 06-2456-1991. 1991. Metode Pengujian Penetrasi Aspal. Jakarta: Badan Standardisasi Nasional (BSN) Indonesia.

Directorate General of Highways. 1999. Pedoman Perencanaan Campuran Beraspal Panas dengan Pendekatan Kepadatan Mutlak, No. 025/T/BM/1999. Jakarta: Direktorat Jenderal Bina Marga, Ministry of Public Works Republic of Indonesia.

Directorate General of Highways (Dirjen Bina Marga). 1987. Petunjuk Lapis Aspal Beton (Laston) untuk Jalan Raya/SKBI 2.4-26.1987 UDC: 625.75(02). Jakarta: Yayasan Badan Penerbit Pekerjaan Umum, Ministry of Public Works Republic of Indonesia.

Rumahorbo, D. and B. Manurung. 2001. Kinerja Laboratorium Aspal Beton Campuran Panas yang Mengandung Serbuk Ban Bekas. Undergraduate Program. Civil Engineering Department, Bandung Institute of Technology, West Java, Indonesia, 2005. Retrieved on 2014-04-16: www.itb.ac.id.

ASTM E102/E102M-93. 2009. Standard Test Method for Saybolt Furol Viscosity of Bituminous Materials at High Temperature. ASTM International, West Conshohocken, PA. Retrieved on 2014-04-15. www.astm.org.

Lebreton, B. and A. Tuma. 2006. A Quantitative Approach to Assessing the Profitability of Car and Truck Tire Remanufacturing. International Journal of Production Economics. 100: 639-652.

Pura Rubber: Innovation to Perfection. Retrieved on 2016-05-04 www.puraagung.com.

Ganesan, N., J. B. Raj, and A. P. Shashikala. 2013. Flexural Fatigue Behavior of Self-Compacting Rubberized Concrete. Construction and Building Materials. 44: 7-14.

Aziz, A. A., S. P. Rao, and E. Salleh. 2013. Waste Tires as Heat Sink to Reduce the Driveway Surface Temperatures in Malaysia. Journal of Design and Built Environment. 13: 1-11.

Novianto, D. and U. Subagyo. 2001. Kajian Pengujian Kuat Tarik Tidak Langsung terhadap Campuran Aspal Beton yang Mengandung Serbuk Ban Bekas. Undergraduate Program, Civil Engineering Department, Bandung Institute of Technology, West Java, Indonesia. Retrieved on 2014-04-16: www.itb.ac.id.

Ministry of Public Works. 2006b. Pedoman Konstruksi Bangunan No. 001-03/BM/2006. Pemanfaatan Asbuton Buku 3 Campuran Beraspal Panas dengan Asbuton Olahan. Jakarta: Ministry of Public Works Indonesia.

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Published

2017-01-31

Issue

Section

Science and Engineering

How to Cite

MARSHALL TEST CHARACTERISTICS OF ASPHALT CONCRETE MIXTURE WITH SCRAPPED TIRE RUBBER AS A FINE AGGREGATE. (2017). Jurnal Teknologi (Sciences & Engineering), 79(2). https://doi.org/10.11113/jt.v79.6965