OPTIMASI RASIO Si/Al, RASIO PADATAN/CAIRAN, KONSENTRASI NaOH DAN JENIS AGREGAT DALAM SINTESA BETON GEOPOLIMER DENGAN METODE TAGUCHI
DOI:
https://doi.org/10.26740/icaj.v2n1.p26-32Keywords:
geopolymerAbstract
The optimization synthezised of geopolymer based on fly ash materials have been done by using Taguchi method. The experimental design was done with 4 factors and 3 levels, that were the influence of Si/Al ratio, solid/liquid ratio, NaOH and the type of aggregate. Geopolymers were synthesized by sol gel method at room temperature, using fly ash as aluminasilica source and alkaline activator solutions thain consist of NaOH and Na2SiO3. The influence of Si/Al ratio studied at level of 4.00, 4.25, 4,50, solid/liquid ratio at level of 1.50, 2.33, 4.00. NaOH (%wt/%v) of 0.24, 0.40, 0.56, and the type of aggregate of Malang sand, Bojonegoro sand and granite. Based on SNR analysis and the characterization determination of higher is better, the geopolymer optimum composition was Si/Al factor at level of 3 (4.50), solid/liquid ratio level at 2 (2.33), NaOH level at 1 (0.24) and type of aggregate level at 3 (granite). The calculation of compressive strength prediction was determined at 21.01 Mpa, while the optimum compressive strength of the experimental result was found at 21 Mpa.
Keywords: Geopolymer, Taguchi Method, Si/Al, Solid/Liquid, NaOH, Type of agreggate
References
[2] Xu H, van Deventer. 2000. The polymerization of Aluminosilicate minerals: Int.J.Miner. Process. Vol. 59, Hal. 247
[3] Davidovits J. 1991. Geopolymer: Inorganic Polymeric New Materials. J.Therm. Anal. Vol. 37. Hal. 1633
[4] Anggarini, U. & Sukmana, N.C. 2016. Synthesis and Characterization of Geopolymer from Bot-tom Ash and Rice Husk Ash. IOP Conf. Series: Materials Science and Engineering. 107: 012-022
[5] Gao, Kang, Lin, Kae-Long, Wang, DeYing, Hwang, Chao-Lung, Shiu, Hau-Shing, Chang, Yu-Ming, Cheng, Ta-Wui. 2014. Effects SiO2/Na2O molar ratio on mechanical properties and the microstructure of nano-SiO2 metakaolin-based geopolymers. Journal of Construction and Building Materials. Vol. 53. Hal. 503-510
[6] Antonyamaladhas, Maria Rajesh, Chachithanantham, Selvamony, Ramaswamy, Anandakumar. 2016. Performance and Behaviour of Ground Granulated Blast Furnace Slag Imparted to Geopolymer Concrete Structural Elements and Analyzed with ANSYS. Advances in Materials Science and Engineering
[7] Joseph, Benny, Mathew, George. 2012. In-fluence of Aggregate Content on the Behavior of Fly Ash Based Geopolymer Concrete. Scientia Iranica. Vol. 19. Hal. 1188-1194
[8] Saker, Prabir Kumar. 2011. Bond strength of Reinforcing Steel Embedded in Fly Ash-Based Geopolymer Concrete. Material and Structure. Vol. 44. Hal 1021-1030
[9] Wahjudi, D., & Alimin, R. 2000. Rekayasa Mutu Besi Beton Dengan Metode Taguchi
[10] Risdiyanto, Y. (2013). Kajian Kuat Tekan Beton Dengan Perbandingan Volume Dan Per-bandingan Berat Untuk Produksi Beton Massa Menggunakan Agregat Kasar Batu Pecah Merapi
[11] Hamidi, Rashidah Mohamed, Man, Zakaria, Azizli, Khairun Azizi. 2016. Concentration of NaOH and the Effect on the Properties of Fly Ash Based Geopolymer. Procedia Engineering. Vol. 148. Hal. 189-193
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