ANALISIS KUAT TEKAN BETON MENGGUNAKAN AGREGAT HALUS PASIR PANTAI JAWAI DAN AGREGAT KASAR BATU PECAH DI KABUPATEN SAMBAS KALIMANTAN BARAT
Abstract
Concrete is a composite material (mixture) of several materials whose basic binder consists of a combination
of fine aggregate, coarse aggregate, water and different additives in a particular mixture. Sand is a filler
material that is used with a binder and water to form a dense and hard mixture. The beach sand in the Jawai
District, Sambas Regency has the potential because of its availability in large quantities, namely 42.53 km
long, quite a lot of sandy beaches and rocks in the hills of Ramayadi Village. This study aims to compare and determine the value of the compressive strength of concrete produced from
concrete using beach sand as a substitute for fine aggregate that is treated (washed and not washed) and by
using coarse aggregate in the form of crushed stone from the South Jawai District, Sambas Regency. The
research was conducted on cube specimens measuring 15 cm long, 15 cm wide and 15 cm high.
The tests carried out were testing the compressive strength of concrete at the age of 7 days and 14 days. The
test results at the age of 7 days for unwashed beach sand and washed beach sand respectively showed an
average compressive strength of 114.0514 kg/cm2 and 153.9535 kg/cm2. While the test results at the age of
14 days for unwashed beach sand and washed beach sand respectively showed an average compressive
strength of 142.6046 kg/cm2 and 209.8392 kg/cm2.
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References
Tentang Analisa Saringan Agregat Halus
dan Kasar. Badan Standar Nasional,
Bandung.
[2] Anonim, 03-1969-1990. Metode Pengujian
Berat Jenis dan Penyerapan Air Agregat
Kasar. Badan Standar Nasional, Bandung.
[3] Anonim, 03-1970-1990. Metode Pengujian
Berat Jenis dan Penyerapan Air Agregat
Halus. Badan Standar Nasional, Bandung.
[4] Anonim, 03-1971-1990. Metode Pengujian
Kadar Air Agregat. Badan Standar Nasional,
Bandung.
[5] Anonim, 03-1971-1990. Metode Pengujian
Slump Beton. Badan Standar Nasional,
Bandung.
[6] Anonim, 03-1973-1990. Metode Pengujian
Berat Isi Beton. Badan Standar Nasional,
Bandung.
[7] Anonim, 03-1973-1990. Metode Pengujian
Kuat Tekan Beton. Badan Standar Nasional,
Bandung.
[8] Anonim, 03-2834-2000. Tata Cara
Pembuatan Rencana Campuran Beton
Normal. Badan Standar Nasional, Bandung.
[9] Anonim, 2493:2011. Tata Cara Pembuatan
dan Perawatan Benda Uji Beton di
Laboratorium. Badan Standar Nasional,
Bandung.
[10] Anonim, 2847-2002: Persyaratan Beton
Struktural Untuk Bangunan Gedung. Badan
Standar Nasional, Bandung.
[11] Anonim, 2847-2013: Persyaratan Beton
Struktural Untuk Bangunan Gedung. Badan
Standar Nasional, Jakarta.
[12] Anonim, 2847-2019: Persyaratan Beton
Struktural Untuk Bangunan Gedung. Badan
Standar Nasional, Jakarta.
[13] Asroni, A. 2010. Balok dan Pelat Beton
Bertulang. Yogyakarta: Graha Ilmu.
[14] Hartatik, N., Gati S. U., dan Novi R. 2014.
Karakteristik Campuran Beton Aspal (ACWC) dengan Penambahan Abu Slag Bajae-ISSN: 2775 - 0655
Sebagai Bahan Pengganti Filler. Jurnal
llmiah Teknik Sipil KERN, Vol 4(1).
[15] Junaidi, A. 2015. Pemanfaatan Abu Batang
Pisang Sebagai Bahan Tambah Untuk
Meningkatkan Kuat Tekan Beton. Berkala
Teknik, Vol 5(2): 823-836.
[16] Juwarnoko, 2019. Pengaruh Penambahan
Serat Kawat Bendrat Pada Campuran Beton
Terhadap Kuat Tekan Dan Kuat Tarik Beton.
[17] Mulyono, T. 2006. Teknologi Beton.
Yogyakarta: Andi.
[18] Neville, A. M and Brook, J. J. 1987.
Concrete Technology. New York: Logman
Scientific.
[19] Oberlyn, J. 2015. Hubungan Perawatan
Beton dengan Kuat Tekan (Pengujian
Laboratorium). Jurnal Poliprofesi, Vol.
10(1): 1-6, ISSN: 1979-9241.
[20] Ramang, R., Dantje A. T. S., dan Muhamad
I. 2014. Studi Kelayakan Teknis Penggunaan
Pasir Laut Alor Kecil Terhadap Kualitas
Beton yang Dihasilkan. Jurnal Teknik Sipil,
Vol 3(2): 111-124.
[21] Rencana Program Investasi Jangka
Menengah (RPIJM) 2015-2019 Bidang Cipta
Karya.
[22] Riyadi, Muhtarom dan Amalia. 2005.
Teknologi Bahan I. Jakarta: Politeknik
Negeri Jakarta.
[23] Tjokrodimuljo, K. 1996. Teknologi Beton.
Yogyakarta: UGM.
[24] Tjokrodimuljo, K. 2007. Teknologi Beton.
Yogyakarta: UGM.
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