Substitusi Parsial dan Full Semen Konvensional pada Campuran Beton Geopolimer Berbahan Baku Arang Cangkang Kelapa Sawit

Rina Aprilia, Liliana Liliana, Frieda Frieda

Abstract


CKS charcoal is waste from burning CKS as operational fuel for Asphalt Mixing Plant (AMP). Hampangen clay and CKS charcoal are usually used as raw materials for non-conventional cement mixed with fine aggregate and coarse aggregate which are usually used in the Palangka Raya City environment. Several studies have been conducted by utilizing industrial by-products as non-conventional cement and made as a geopolymer concrete mixture. The geopolymer concrete mixture uses aggregates that are usually used in Palangka Raya City.This study aims to determine whether by adding conventional cement partially and fully to a mixture of non-conventional cement made from Hampangen clay and CKS charcoal can produce a geopolymer concrete mixture that is maximum in terms of the compressive strength of the concrete produced. The method used is the calculation of the mix design calculated using the ACI method (meaning in conditions of adding conventional cement fully - 100%). Based on the results of the study, it is known that the addition of PCC cement, the Gresik brand, in a mixture of geopolymer concrete made from CKS charcoal and Hampangen clay on the compressive strength of concrete is categorized as very strong.

Keywords


Semen Konvensional; Semen Geopolimer; Arang Cangkang Kelapa Sawit; Kaolin Hampangen; Beton Geopolimer

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References


Dadang, S., Liliana. Okta, Meilawaty. (2021). Kelayakan Abu Terbang Pltu Buntoi Sebagai Campuran Beton Geopolimer - Feasibility Of Flying Ash Of Pltu Buntoi As A Geopolimary Concrete Mixture. Media Ilmiah Teknik Sipil, Volume 9 Nomor 2 Juni 2021 pp. 102-108.

Davidovits, Joseph. (1994). Properties of Geopolymer Cements. Proceeding First International on Alkaline Cements and Concretes, Scientific Research Institute on Binders and Materials, Kiev State University, Kiev.

Essaidi,N., B. Samet, S.Baklouti, dan S. Rossignol. (2014). Feasibility of producing geopolymers from two different Tunisian clays before and after calcination at various temperatures. Applied Clay Science, 88–89 : 221–227

Hardjito, Djwantoro. (2005a). Studies on Fly Ash-Based Geopolymer Concrete. Thesis is presented for the Degree of Doctor of Philosophy of Curtin University of Technology.

Hardjito, D., dan B. V. Rangan. (2005b). Development And Properties Of Low-Calcium Fly Ash-Based Geopolymer Concrete. Research Report GC1 Faculty of Engineering Curtin University of Technology Perth.

Huseien, G.F., Jahangir Mirza , Mohammad Ismail, S.K. Ghoshal, dan Mohd Azreen Mohd Ariffin. (2016). Effect Of Metakaolin Replaced Granulated Blast Furnace Slag On Fresh and Early Strength Properties of Geopolymer Mortar. Ain Shams Engineering Journal.

Irman, D., dkk. (2024). Analisis Manajemen Risiko Pada Proyek Konstruksi Rehabilitasi Daerah Irigasi Bungkal Kota Sungai Penuh. Talenta Sipil Unbari, Vol 7, No. 2.

Liliana, T., dan Januarti, J.E. (2023). Performance of Artificial Coarse Aggregates from a Mixture of Hampangen Clay and Palm Shell Charcoal by Geopolymerization Method. Civil Engineering and Architecture, Vol. 11, No. 5A, pp. 3142 - 3153, 2023. DOI: 10.13189/cea.2023.110824.

Maulani, F., Suraji, A., & Istijono, B. (2014). Analisis Struktur Rantai Pasok Kontruksi pada Pekerjaan Jembatan. Jurnal Rekayasa Sipil (JRS-Unand), 10(2). https://doi.org/10.25077/jrs.10.2.1- 8.2014. (Indonesian).

Ojo, E., Mbowa, C., & Akinlabi, E. T. (2014). Barriers in Implementing Green Supply Chain Management in Construction industry. Proceedings of the 2014 International Conference on Industrial Engineering and Operations Management, (pp. 1974-1981). Bali, Indonesia.

Shehab, H. K., dkk. (2016). Mechanical Properties Of Fly Ash Based Geopolymer Concrete With Full and Partial Cement Replacement. Construction and Building Materials pp 560-565.

Subaer. (2012). Pengantar Fisika Geopolimer. Program Penulisan Buku Teks Perguruan Tinggi. Direktorat Jenderal Pendidikan Tinggi. ISBN :978-979-1082-79-2.

Suriyana, D., dkk. (2021). Kelayakan Abu Terbang PLTU Buntoi Sebagai Campuran Beton Geopolimer. Media Ilmiah Teknik Sipil, Vol 9, No 2.

Tippayasam, C., Pimpawee, K., Parjaree., dkk. (2014). Effect of Thai Kaolin on properties of agricultural ash blended geopolymers. Construction and Building Materials, 53 : 455–459

Widhiawati, I. A. R., Wiranata, A. A., & Wirawan, I. P.Y. (2016). Faktor-faktor Penyebab Change Order Pada Proyek Konstruksi Gedung. Jurnal Ilmiah Teknik Sipil, Vol. 20.

Yunita, O.M., Liliana. (2021). Pengaruh Pemanfaatan Abu Sekam Padi Dan Abu Terbang PLTU Buntoi Sebagai Semen Non Konvensional Terhadap Kuat Tekan. Jurnal Kacapuri Jurnal Keilmuan Teknik Sipil, Vol. 4(1).

Zhu, J., Fang, M., Shi, Q., Wang, P., & Li, Q. (2018). Contractor Cooperation Mechanism and Evolution of the Green Supply Chain in Mega Projects. Sustainability 2018.




DOI: http://dx.doi.org/10.33087/talentasipil.v8i1.658

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Jurnal Talenta Sipil, Faculty of Engineering, Batanghari University
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