The casting process is widely used because it has the advantage of being able to make products with small dimensions to very large dimensions, the use of materials is more efficient, the casting products can be directly used. However, in the casting process, the main triggers for the formation of defects are the nature of the mold, low permeability, low molding compressive strength, low sintering point, unsuitable sand grain distribution, so research is needed to obtain the right type of molding sand as a sand mold in metal casting. The only type of additive is bentonite. Bentonite can absorb water and expands between 8-15 times and remains dispersed in water for a certain period of time. This study aims to examine the effect of a mixture of variations of local bentonite and Australian bentonite on the characteristics of the molding sand for the sand casting process. The tests carried out are in the form of size distribution testing, X-Ray Diffraction, water content testing, compressive strength, and permeability measurements. Bentonite was varied into 5 variations of the mixture with a difference of 20% in each mixture. The results of the large size distribution of silica sand grains were 37.6 GFN. The results of XRD testing of local bentonite showed a higher content of calcium compounds and Australian bentonite contained higher sodium compounds. The largest water content test value is 5.825%. The largest compressive strength test value is 2.7 Kgf /cm².

Aji, P. (2018). Pengaruh Kadar Air Pada Pasir Cetak Mikro dan Kekerasan Pengecoran Aluminium Bekas. https://lib.unnes.ac.id/36146/

Anggara, F., Amijaya, D. H., Harijoko, A., Tambaria, T. N., Sahri, A. A., & Asa, Z. A. N. (2018). Rare earth element and yttrium content of coal in the Banko coalfield, South Sumatra Basin, Indonesia: Contributions from tonstein layers. International Journal of Coal Geology, 196(July), 159–172. https://doi.org/10.1016/j.coal.2018.07.006

Asnawi Gani, T. (2006). Petunjuk Praktis Teknologi Pengecoran Besi Tuang. Cetakan III, Balai Besar Logam dan Mesin (BBLM). Bandung.

Astika , I .M., Negara, DNK ; Susanti, Made Agus. 2010. Pengaruh Jenis Pasir Cetak dengan Zat Pengikat Bentonit Terhadap Sifat Permeabilitas dan Kekuatan Tekan Basah Cetakan Pasir (Sand Casting). Jurnal Ilmiah Teknik Mesin Cakra. Vol. 4 No.2 (132-138).

Bahrudin, F., Harjanto, B., & Saputro, H. (2020). Pengaruh Variasi Penambahan Fly Ash & Bentonit Terhadap Sifat Pasir Cetak Dan Cacat Gasholes Pada Hasil Pengecoran Logam Aluminium. 8(2), 53–61.

BBLM-JICA. Petunjuk Praktis Teknologi Pengecoran Besi Tuang. Cetakan III, Januari 2006, Bandung

Bhirawa, W. T. (2021). Proses Pengecoran Logam Dengan Menggunakan Sand Casting. Jurnal Teknik Industri, 4(1), 31–41. https://journal.universitassuryadarma.ac.id/index.php/jtin/article/view/826

Buchari, B., & Harsini, M. (1996). Karakterisasi Bentonit Pacitan. Jurnal Kimia Terapan Indonesia, 6(1-2).

Cao, C. Y., Meng, L. K., & Zhao, Y. H. (2014). Adsorption of phenol from wastewater by organo-bentonite. Desalination and Water Treatment, 52(19–21), 3504–3509. https://doi.org/10.1080/19443994.2013.803649.

Desiana, S. (2012). Pengaruh Variasi Waterglass Terhadap Kadar Air Dan Kadar Lempung Pada Pasir Cetak. Skripsi. Universitas Sebelas Maret, Surakarta.

Haryanto, M. A. (2015). Analisis Pengaruh Variasi Ukuran Butir dan Kadar Pengikat terhadap Kekuatan Tekan Cetakan Pasir. (Doctoral dissertation). Universitas Muhammadiyah Jember.

Hendronursito, Yusup; Prayanda, Yogi, (2016). Potensi Pasir Lokal Tanjung Bintang Pada Aluminium Sand Casting Terhadap Porositas Produk Hasil Cor Aluminium. Jurnal Kajian Teknik Mesin. Vol. 1 No. 2 (60-68).

Jamaluddin. K. 2010. X-RD (X-Ray Diffraction). Program Studi Pendidikan Fisika, Fakultas Keguruan dan Ilmu Pendidikan. Universitas Haluleo.

Karimi, L., & Salem, A. (2011). The role of bentonite particle size distribution on kinetic of cation exchange capacity. Journal of Industrial and Engineering Chemistry, 17(1), 90–95. https://doi.org/10.1016/j.jiec.2010.12.002

Kusuma, G. T. (2012). Studi Penambahan Bentonit Pada Pasir Cetak Basah Terhadap Permeabilitas Dan Kekuatan Tekan. Skripsi, 6–8.

Le, Z., & Shi, L. (2012). The effection of copper chloride on the surface of bentonite in adsorption of propylmercaptan. Energy Sources, Part A: Recovery, Utilization and Environmental Effects, 34(13), 1231–1237. https://doi.org/10.1080/15567031003792387

Muttahar, M. I. Z., Djuanda, D. R., Afrilinda, E., & Supriyadi, S. (2022). Karakterisasi Sifat Fisik Bentonit Riau melalui Metode Pengujian Distribusi Ukuran, Swelling Index, Pengukuran pH, dan Methylene Blue Value. Metal Indonesia, 43(2), 90-95.

Nandagopal, M., Sivakumar, K., Velmurugan, S., Durairaj, R. B., & Mageshwaran, G. (2020). Multi-objective optimization of western bentonite (Al2H2Na2O13Si4)-blended green sand casting process parameters to improve mould quality. Transactions of the Canadian Society for Mechanical Engineering, 45(1), 110-119.

Nugroho, A., & Rusiyanto, R. (2018). Analisis Program Pelatihan Alat Pelindung Diri (APD) Pada Pekerja Pengecoran Logam di Lingkungan Koperasi Rakitan Rakyat Tegal. SNKPPM, 1(1), 1-4.

Ridwan. (2019). Pengolahan Dan Karaterisasi Bentonit Alam Aceh Sebagai Pengisi Bionanokomposit Poli Kaprolakton /Poli Asam Laktat/Kitosan. Disertasi Ilmu Kimia Fakultas Mtematika dan Ilmu Pengetahuan Alam. Universitas Sumatera Utara.

Slamet, S. (2015). Komposisi Distribusi Butir Pasir Cetak Terhadap Tingkat Produktifitas Akibat Cacat Produk Cor (Studi Kasus di IKM Budi Jaya Logam Kecamatan Juwana–Pati). Prosiding SNST Fakultas Teknik, 1(1).

Sulardjaka, A. Suprihanto, Y. U. dan P. W. (2010). Analisis Cacat Cor Pada Proses Pengecoran Burner Kompor. 27–33.

Surdia, T & Chijiwa, K. 2006. Teknik pengecoran logam. PT Pradnya Paramita. Jakarta 13140.

Tantawi, M. Amrullah Sayid. 2017. Pengaruh Cetakan Pasir Silika dengan Zat Pengikat Bentonit pada Pengecoran Kuningan Terhadap Cacat Coran, Struktur Mikro, dan Kekerasan.

Utomo, C., & Patna Partono, S. T. (2017). Perencanaan dan pembuatan dies permanent mold pengecoran logam dengan material besi cor ductile (FCD). (Doctoral dissertation). Universitas Muhammadiyah Surakarta.

Widayat, Widi; Budiyono, Aris, (2014). Pengaruh Kadar Air Pasir Cetak Terhadap Kualitas Coran Paduan Aluminium. Jurnal Kompetensi Teknik. Vol. 6, No.1.