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Analysis of Fine Glass Waste Addition as a Filler Material for Sand Substitution on the Properties of Mortar Products

Suharto Suharto  -  Balai Penelitian Teknologi Mineral, Badan Riset dan Inovasi Nasional (BRIN), Indonesia
Muhammad Amin  -  Balai Penelitian Teknologi Mineral, Badan Riset dan Inovasi Nasional (BRIN), Indonesia
*Muhammad Al Muttaqii orcid scopus  -  Indonesian Institute of Sciences, Indonesia
Roniyus Marjunus  -  Jurusan Fisika, Universitas Lampung, Indonesia
Nuzullia Fitri  -  Jurusan Fisika, Universitas Lampung, Indonesia
Suhartono Suhartono  -  Jurusan Teknik Kimia, Fakultas Teknik, Universitas Jenderal Achmad Yani, Indonesia
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Abstract

Inorganic glass waste can replace sand in mortar production due to its SiO2 content being greater than 70%. This study aims to analyze the increase in mortal product agility due to the substitution of sand and reducing environmental pollution. The fine glass waste used is restrained on 80 and 120 mesh sieves. The fine glass waste substitution variations are 0, 10, 20, 30, 40, and 50% of the sand weight. The results show that fine glass waste could be used as a material for sand substitution because of the content of SiO2 of 73.8%. The results from XRD indicate that the phase of fine waste glass is amorphous. The mortar was printed with a 5x5x5 cm cube mold, and it was soaked for 7, 14, and 21 days. Based on the results, the compressive strength with a high value of 13.58 MPa at 20% fine glass waste substitution and 120 mesh. The density of 2.8±0.8 g/cm3, porosity 4.40±0.001%, and absorption 2.83±0,0009%. The compressive strengths, density, porosity, absorption, XRF and XRD characterization were evaluated. The results showed that the SiO2 compound in waste glass with the right composition of 20% could significantly increase the compressive strength. Phase formation of Calcite (CaCO3), Quartz (SiO2), and Portlandite (Ca(OH)2) was formed from the results of XRF characterization

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Keywords: fine glass waste; sand; filler; mortar

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  1. Amin, M. dan Suharto. (2017). The Producing of Environmental Friendly Geopolymer Cement With Raw Material of Basalt Minerals to Accomplish Welfare Lampung. Jurnal Kelitbangan, 5(1), 36-38
  2. ASTM D-2216. (1999). Standard Method for Laboratory Determination of Moisture Content of Soil. West Conshohocken, PA: American Society for Testing and Materials (ASTM) International
  3. Bentchikou, M., Bouriaha, S., Hamdanea, N., Debiebb, F., dan Boukendakdji, O. (2017). Comparative Study of the Properties of Mortars with Recycled Glass Assessing the Feasibility of Using the Heat Demand-Outd. International Conference on Materials and Energy 2015, ICOME 15, 19-22 May 2015, Tetouan, Morocco and the International Conference on Materials and Energy 2016, ICOME 16, 17-20 May 2016, La Rochelle, France. 139, 499-504
  4. Choi, S.Y., Choi, Y.S., dan Yang, E.I. (2018). Characteristics of Volume Change and Heavy Metal Leaching in Mortar Specimens Recycled Heavyweight Waste Glass as Fine Aggregate. Construction and Building Materials, 165, 424-433
  5. Hambali, M., Lesmania, I., dan Midkasna, A. (2013). Pengaruh Komposisi Kimia Bahan Penyusun Paving Block terhadap Kuat Tekan dan Daya Serap Airnya. Jurnal Teknik Kimia, 19 (4), 14-21
  6. Huerta, E., Corona, J.E., Oliva, A.I., Aviles, F., dan Ganzalez-Hernandez, J. (2010). Universal Testing Machine for Mechanical Properties ff Thin Materials. Revista Mexicana De Fisica, 56 (4). 317-322
  7. Huseien, G.F., Hamzah, H.K., Sam, A.R.M., Khalid, N.H.A., Shah, K.W., Deogrescu, D.P., dan Mirza, J. (20190. Alkali-Activated Mortars Blended with Glass Bottle Waste Nano Powder: Environmental Benefit and Sustainability. Journal of Cleaner Production, . 243, 2-3
  8. Jesus, S., Maia, C., Farinha, C.B., Brito, J., dan Veiga, R. (2019). Rendering Mortars with Incorporation of Very Fine Aggregates from Construction and Demolition Waste. Construction and Building Materials, 229, 1-2
  9. Joni, I.M., Vanitha, M., Fanatarani, C., dan Faisal, F. (2019). Dispersion of Amorphous Silica Nanoparticles Via Beads Millig Process and Their Particle Size Analysis, Hydrophobicity and Anti-Bacterial Activity. Advanced Powder Technology
  10. Letelier, V., Henriquez-Jara, B.I., Manosalva, M., dan Moriconi, G. (2019). Combined Use of Waste Concrete and Glass as A Replacement for Mortar Raw Materials. Waste Management, 94, 107-108
  11. Olofinnade, O., Ede, A., Ndambuki, J., Omole, D., Jolayemi, K., Oyeyemi, K., Ajao, A., dan Ukoh, A. (2015). Sustainable Utilization of Crushed Waste Glass as Sand Replacement for Production of Eco-Friendly Interlocking Paving Stone. Materials Science and Engineering, 1-5
  12. Rahim, N.L., Amat, R.C., Ibrahim, N.M., Salehudin, S., Mohammed, S.A., dan Rahim, A.M. (2015). Utilization of Recycled Glass Waste as Partial Replacement of Fine Aggregate in Concrete Production. Materials Science Forum. 803, 16-20
  13. Ramadani, Kurnia. (2018). Sintesis dan Karakterisasi Silika Gel dari Limbah Kaca Untuk Menurunkan Kesadahan Air. Jurnal Saintifik, 1(1)
  14. SNI. 03-1968-1990. Metode Pengujian Tentang Analisis Saringan Agregat Halus dan Kasar. Jakarta.: Badan Standar Nasional
  15. SNI. 03-6825-2002. Metode Pengujian Kekuatan Tekan Mortar Semen Portland Untuk Pekerjaan Sipil Jakarta.: Badan Standar Nasional
  16. SNI S-04-1989-F. Spesifikasi Bahan Bangunan Bagian A (Termasuk Air). Jakarta : Badan Standar Nasional.
  17. Tamanna, N., Sutan, N. M. Le, T. C., dan yakub, I. (2013). Utilization of Waste Glass in Concrete. Conference Paper. 6th International Engineering Conference, Energy and Environment (ENCON 2013)
  18. Walczak, P., Malolepszy, J., Reben, M., Szymanski, P., dan KarolRzepa. (2015). Utilization of Waste Glass in Autoclaved Aerated Concrete. Procedia Engineering, 302-309
  19. Wibowo, A. (2017). Perbandingan Kuat Tekan dan Serapan Air pada Produk Mortar dengan Variasi Campuran Semen Artikel Ilmiah. Universitas Muhammadiyah Surakarta

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