Design of Disc on Disc Wear Test Equipment Using VDI 2221 Method

  • Dedi Rosa Putra Cupu Laboratory Technology Construction, Mechanical Engineering Department, Universitas Riau, Indonesia
  • Nandha Syamza Mechanical Engineering, Universitas Riau, Indonesia
DOI: http://dx.doi.org/10.36842/jomase.v65i3.255

Abstract

This study aims to design the build of a wear test tool or a tribometer that intends to measure the coefficient of friction and wear rate in contact materials in form of disc-on-disc. This tribometer test tool can be used in dry contact (without any intermediate material between contacts) or wet contacts (by using intermediate material between contacts such as lubricant). The application of this disc-on-disc type of tribometer is the contact that occurs between roller elements (solid cylinders) and inner rings on cylindrical rolling bearings. In this paper is used the design method of VDI 2221. The steps are to clarify the task, determine the function of structure, look for the principle of the solution and its structure, describe the variants that can be realized and give shape to the model and detail the manufacture and used. This tool is used to test components consisting of two discs where the material can be varied. The design of the surface contact side mechanism is done in a radial direction.  So, the disc can rotate (rolling contact) and this test tool can be varied load and rotation. The final result of this study is an engineering document in the form of layout drawings and assembly images as well as detailed images of each component and bills of materials.

##Keywords:## Design, VDI 2221, Disc-on-disc, Friction.
Published
Nov 30, 2021
How to Cite
CUPU, Dedi Rosa Putra; SYAMZA, Nandha. Design of Disc on Disc Wear Test Equipment Using VDI 2221 Method. Journal of Ocean, Mechanical and Aerospace -science and engineering-, [S.l.], v. 65, n. 3, p. 100-106, nov. 2021. ISSN 2527-6085. Available at: <https://isomase.org/Journals/index.php/jomase/article/view/255>. Date accessed: 19 aug. 2024. doi: http://dx.doi.org/10.36842/jomase.v65i3.255.
Citation Formats
Issue
Vol 65 No 3 (2021): Journal of Ocean, Mechanical and Aerospace -science and engineering- (JOMAse)
Section
Articles

References

[1] Samuel, A. & Weir, J. (1999). Introduction to Engineering Design. Elsevier Science & Technology Books, ISBN: 0750642823, Melbourne.
[2] Hegadekate, V., Kurzenha¨user, S., Huber, N. & Kraft, O. (2008). A predictive modeling scheme for wear in tribometers, Tribology International, 41, 1020-1031.
[3] Sularso (2004). Machine Element. PT. Pradya Paramita, Jakarta.
[4] Budynas, R.G. & Nissbet, J.K. (2008). Shigley's Mechanical Engineering Design. 8th Edition in SI Unit. New York: McGraw-Hil.
[5] Stachowiak, G. & Batchelor, A. (2005). Engineering Tribology. Oxford: Elsevier.
[6] Bhushan, B. (2013). Introduction of Tribology. New York: Wiley.
[7] Zum – Gahr, K.H. (1987). Microstructure and Wear of Materials. Elseiver, Amsterdam, The Netherlands.
[8] Stachowiak, G.W. (2005). Wear – Materials, Mechanisms and Practice.
[9] Shigley, J.E., Mitchell, L.D. in translator by Harahap, G. (1986). Mechanical Engineering Design. Fourth Edition Volume 1. Jakarta : Erlangga.
[10] Sularso; Suga, Kiyokatsu (2002). Basic Planning and Selection of Machine Elements. Pradnya Paramita: Jkr.
[11] Mott, R.L. (2009). Machine Elements in Mechanical Design (Integrated Machine Element Design) 1. Yogyakarta: Andi Publisher.
[12] Popov, E.P. in translator: Astamar, Z. (1996). Mechanical Mechanics. Second Edition. Jakarta: Erlangga.
[13] Londa, P. (2013). Design of Running Test Equipment for Disc Paired Contact System and Gear. Pairs, Semarang.
[14] Guler, K. & Petrisor, D.M. (2021). A pugh matrix based product development model for increased small design team efficiency, Cogent Engineering, 8(1), 1-17.