ANALISIS LAJU KOROSI BAJA KARBON RENDAH DALAM MEDIA BAHAN BAKAR (PREMIUM dan PERTALITE)
Abstract
Corrosion is one of the issues that concerns today because it can lead to destruction of metal. Low steel carbon is one ofmetal types that has been widely used in industry, such as motorcycle component (fuel tank), and fuel shelter. However,low carbon steel use is highly suceptible to corrosion. The corrosion of motorcycle components (fuel tank) can decreasestrength, tank life, that will harm the safety of motorists. In addition, corrosion in fuel shelters (premium and pertalite)can result in leakage of the container. The leakage is very vulnerable to fire. This research aims to analize corrosion rateof low carbon steel speciments that immerse in fuels, premium and pertalite. Method of research includes preparation,cutting and weighing of specimens before immersing the specimen in the fuel. Every 30 days the specimens wereremoved from the fuel then cleaned from the impurities and re-weighed. Weight loss wass used in calculating thecorrosion rate occurring in the speciments. The result show that pertalite and premium corrode the speciments, lowcarbon steel. Corrosion rate of speciments immersed for 30 days in premium was faster than in pertalite. The specimentsimmersed in premium experienced with weight reduction from 14.312 gram to 14.307 gram, 0.05 mm/year of corrosionrate. Meanwhile rate of corrosion of the speciments immersed in pertalite was 0.005 mm/year by which reduced theweight from14.312 gram to 14.307 gram.References
ASTM International. 2004. ASTM D-130: Standard Practice for Laboratory Immersion Corrosion Testing of Metals.
United State.
ASM. (1992). ASM Handbook Volume 13 : Corrosion. Ohio: ASM International. Ohio: ASM International.
ASM. (2003). ASM Handbook Volume 13A : Corrosion Fundamental Test. Ohio: ASM International.
ASM. (2005). ASM Handbook Volume 13B : Materials. Ohio: ASM International.
ASM. (2006). ASM Handbook Volume 13C : Corrosion: Materials, Environments, and Industries. Ohio: ASM
International.
ASTM. (1967). Annual Book of ASTM Standards. Section 03: Metals Test Methods and Analytical Procedures Volume
02 : Wear and Erosion; Metal Corrosion, Designation: G1 – 03 Standard Practice for Preparing, Cleaning, and
Evaluating Corrosion Test Specimens. Philadelphia, PA: ASTM International.
ASTM. (2000). Annual Book of ASTM Standards. Section 5 : Petroleum Products, Lubricants, and Fossil Fuels.
Volume 05.01 Designation: D 130 – 04 Standard Test Method for Corrosiveness to Copper from Petroleum
Products by Copper Strip Test. Philadelphia, PA: ASTM International.
Feriansyah Khoirul dan Sakti Arya M. (2014), Studi Komparatif Laju Korosi Logam Kuningan C3604 (Spuyer
Karburator) Di Media Premium Dan Pertamax Menggunakan Metode Astm D-130. Jurnal Teknik Mesin Volume
Nomor 02 Tahun 2014, 348-354
Jones, D. A, (1996), Principles and Prevention of Corrosion, Second Edition, Prentice Hall, Inc, United State of
America.
J. Monzo, J. Garcia-Anton, and J. L. Guinon. (1992). Study of corrosion on copper strips by mixtures of mercaptans,
sulphides and disulphides with elemental sulphur in the ASTM D-130 test by means of electron microscopy (SEM)
and energy dispersive X-ray (EDX). Fresenius Journal Analitical Chemistry by Springer-Verlag, 343:593- 596.
Nu’aini dan Marsudi, (2015), Perhitungan Laju Korosi Duraluminium (Pada Mangkuk Karburator) Denga