ANALISA PEMILIHAN BAHAN PADA PEMODELAN SPROKET
DOI:
https://doi.org/10.46365/jmio.v1i01.338Abstract
Sprocket is a chain drive component as a power transfer, starting from one shaft to another. For effective power transfer, chain sprocket is made and planned precisely. A Sprocket varies from the number of gears, measurements and types of material, for example on bicycles, motorcycles, cars, chain-wheeled vehicles, and other machines. This study uses the basis of sprocket modeling with re-engineering of the model. Testing with finite element analysis will know the strength and toughness of the sprocket to the optimum limit. Sprocket modeling is designed and simulated before operational testing. A number of materials are used, such as alloy steel, gray cast iron, carbon fiber and then a comparison of tensile stress values, total deformation, pressure and stress levels are used. The progress of this modeling process is to check the sprocket by selecting the best material. With finite element analysis based software, dimension comparisons, model designs and ideal materials are made for the sprocket.
Keywords: Software FEA, manufacturing model, sprocket chain, material properties, testing simulation
References
[2] Onsoien, M.I and Skaland, T (2001). Preconditioning of Grey Iron melts using Ferrosilicon or Silicon carbides. American Foundry Society.
[3] Higgins, R.A (2004). Engineering Metallurgy: Applied Physical Metallurgy, 6th ed. Viva Books. New Delhi. pp.355-356.
[4] Chisamera, M; Riposan, I; Stan, S; White, D and G.Grasmo, (2008). Graphite Nucleation Control in Grey Cast Iron, International journal of cast metals research. W.S. Maney & son Ltd, Vol. 21 No. 1-4. pp39-44.
[5] Sudsakorn Inthidech, Prasonk Sricharoenchai and Yasuhiro Matsubara (2006). Effect of Alloying Elements on Heat Treatment Behavior of Hypoeutectic High Chromium Cast Iron, Materials Transactions. Vol. 47, No. 1, pp. 72.
[6] Mark Ihm. (2010). Introduction to Gray Cast Iron Brake Rotor Metallurgy. TRW Automotive. Society of Automotive Engineers.www.slideshare.net/usman31/tutorial-ihm. July, 02, 2019.
[7] Cleiton C. et.al. (2008). Evaluation of AISI 4140 Steel Repair Without Post-WeldHeat Treatment. Journal of Materials Engineering and Performance. ASM International. p.1-9.
[8] Edwan Anderson A. et.al. (2014). Numerical Simulation with Thorough Experimental Validation to Predict the Build-up of Residual Stresses during Quenching of Carbon and Low-Alloy Steels. ISIJ International. Vol. 54 No. 6. pp. 1396–1405.
[9] W.N.M. Jamil. et.al. (2016). Mechanical properties and microstructures of steel panels for laminated composites in armoured vehicles. International Journal of Automotive and Mechanical Engineering (IJAME). Vol.13. Issue 3 pp. 3742 – 3753.
[10] Ahmet Avc?. et.al. (2009). Mechanical and microstructural properties of low-carbon steel-plate-reinforced gray cast iron. Journal Of Materials Processing Technology. Vol.20 Issue 9. pp.1410–1416.
[11] V.Dattoma, R. et.al. (2016). Advanced NDT Procedures And Thermal Data Processing On CFRP Aeronautical Components. Proceedings IRF2018: 6th International Conference Integrity-Reliability-Failure Lisbon/Portugal. Editors J.F. Silva Gomes and S.A. Meguid. 22-26 July 2018.
