Awathifi, Lana (2020) Pengaruh Modifikasi Geometrik Partikel Silika Alam Terhadap Efek Hidrofobisitas Pada Plat Baja. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Dalam penelitian ini telah disintesis serbuk silika murni yang berasal dari Pasir Pantai Kepulauan Bangka-Belitung. Pasir alam diekstraksi dengan magnet permanen dan direndam dengan HCl untuk mendapatkan silika murni, dilanjutkan dengan proses kopresipitasi dan kalsinasi pada temperatur 900 ̊C selama 10 jam. Hasil akhir dari proses sintesis adalah serbuk silika murni fasa kristobalit (83,03 %wt) dan fasa tridimit (16,97 %wt). Serbuk silika hasil sintesis digunakan sebagai modifikasi pada cat baja topcoat untuk meningkatkan hidrofobisitas permukaan plat baja sehingga dapat mengurangi tingkat kelajuan korosi. Pengecatan plat baja dilakukan dengan metode brush painting dan terdiri tiga lapisan, yaitu lapisan primer, midcoat, dan topcoat. Variasi dalam penelitian ini adalah kosentrasi serbuk silika dalam cat baja topcoat, yaitu 0%wt (sampel 1), 3%wt (sampel 2), 6%wt (sampel 3), 9%wt (sampel 4), dan 12%wt (sampel 5). Variasi tersebut berpengaruh terhadap geometrik permukaan plat baja, yaitu permukaan semakin kasar seiring bertambahnya konsentrasi serbuk silika yang dicampurkan. Hidrofobisitas plat baja dapat diketahui dari pengukuran Water Contact Angle (WCA). Besar WCA menggunakan air tawar pada sampel 1, sampel 2, sampel 3, sampel 4, dan sampel 5 berturut-turut adalah 75,828 ̊, 90 ̊, 91,397 ̊ 96,520 ̊, dan 104 ̊. Sedangkan besar WCA menggunakan air laut pada sampel 1, sampel 2, dan sampel 4 berturut-turut adalah 80,618 ̊ , 102 ̊, dan 104,56 ̊.
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In this research has been synthesed pure silica powder from the sand coast of Bangka-Belitung Island. Natural sand has been extracted by using permanent magnet and remained in HCl to get pure silika, followed by coprecipitation and calcination processes at 900 ̊ C for 10 hours. The result of synthesis process is pure silica powder with cristobalite phase (83.03 %wt) and trydimite phase (16.97 %wt). Pure silica powder is used as a modification in top coat of steel to increase the hydrophobicity of steel plate surface to reduce the rate of corrosion. Steel plate has been painted by brush-painting method and consists of three layers, namely primary coat, mid coat, and top coat. Variations in this research are the concentration of silica powder in top coat of steel such as 0%wt (sample 1), 3%wt (sample 2),6%wt (sample 3), 9%wt (sample 4), and 12%wt (sample 5). This variation affects the geometric surface of the steel plate, which is the surface getting rougher as more the concentration of silica powder are added. The hydrophobicity of steel plates can be determined from the measurement of Water Contact Angle (WCA). The WCA with fresh water of sample 1, sample 2, sample 3, sample 4, and sample 5 are 84.472̊ , 90̊, 91.3397̊, 96.520̊ , and 104̊. While the WCA with sea water of sample 1, sample 2, and sample 3 are 80.618 ̊, 102 ̊, 104,56 ̊.
| Item Type: | Thesis (Undergraduate) |
|---|---|
| Uncontrolled Keywords: | geometric, hydrophobicity, silica, Water Contact Angle (WCA). geometrik, hidrofobisitas, silika, Water Contact Angle (WCA) |
| Subjects: | Q Science Q Science > QC Physics > QC173.4.C63 Composite materials Q Science > QC Physics > QC585.75.S55 Silica |
| Divisions: | Faculty of Natural Science > Physics > 45201-(S1) Undergraduate Thesis |
| Depositing User: | Lana Awathifi |
| Date Deposited: | 24 Aug 2020 06:04 |
| Last Modified: | 24 Aug 2020 06:04 |
| URI: | http://repository.its.ac.id/id/eprint/80541 |
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