Examination of the Abrasiveness of Vehicle Lacquer Coats

Nachimowicz, J.; Korbut, R.; Rydzewski, M.

Artykuł - szczegóły

Tytuł artykułu

Examination of the Abrasiveness of Vehicle Lacquer Coats

Autorzy

Nachimowicz J. , Korbut R. , Rydzewski M.

Wybrane pełne teksty z tego czasopisma

http://www.simr.pw.edu.pl/ipbm/Instytut-Podstaw-Budowy-Maszyn/Nauka/Machine-Dynamics-Research

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Warianty tytułu

Języki publikacji

Abstrakty

The present paper shows the results of the examination of particular vehicle lacquer coats in terms of their abrasiveness. The tests were carried out on the tribological examination stand T-20, which, as a friction pair, used a rolling ball made of the 17HNM steel and an immobile shield covered with a complete lacquer coat. Moreover, the paper presents the method of selecting optimum parameters of friction, as well as the results of the abrasiveness examination of water-based lacquers and classic lacquers with classic solvents.

Słowa kluczowe

abrasiveness water-based lacquers solvents Taguchi method

Wydawca

Oficyna Wydawnicza Politechniki Warszawskiej

Czasopismo

Machine Dynamics Research

Rocznik

2017

Tom

Vol. 41, No. 3

Strony

83--94

Opis fizyczny

Bibliogr. 13 poz., il., schem., tab.

Twórcy

autor

Nachimowicz J.

j.nachimowicz@pb.edu.pl

Bialystok University of Technology, Faculty of Mechanical Engineering

autor

Korbut R.

kontakt@shelby.com.pl

WIZARD Robert Korbut

autor

Rydzewski M.

marrydz@wp.pl

Bialystok University of Technology, Faculty of Mechanical Engineering

Bibliografia

1. Atkinson, A., Donev, A., and Tobias, R. (2007). Optimum experimental designs, with SAS, volume 34. Oxford University Press.
2. Błachowicz, E., E., K., and A., N. (2005). Light Metals in Automotive Application - Friendly to Environment Chemical Surface Treatment Processes. The European Corrosion Congress, Lizbona.
3. Dowey, S., Rähle, B., and Matthews, A. (1998). Performance analysis of coated tools in real-life industrial experiments using statistical techniques. Surface and Coatings Technology, 99(1-2):213–221.
4. Lee, D., Krumdieck, S., and Talwar, S. D. (2013). Scale-up design for industrial development of a pp-mocvd coating system. Surface and Coatings Technology, 230:39–45.
5. Ouabbas, Y., Dodds, J., Galet, L., Chamayou, A., and Baron, M. (2009). Particle–particle coating in a cyclomix impact mixer. Powder Technology, 189(2):245–252.
6. Piekoszewski, W. (2011). Influence of coating on surface fatigue of lubricated steel friction nodes. ITeE-PIB. Radom.
7. Pukelsheim, F. (2008). Optimal design of experiments. Wyd. Society for Industrial and Applied Mathematics.
8. Sato, A., Serris, E., Grosseau, P., Thomas, G., Galet, L., Chamayou, A., and Baron, M. (2013). Experiment and simulation of dry particle coating. Chemical engineering science, 86:164–172.
9. Sreenivas, R. R., Kumar, C. G., Prakasham, R. S., and Hobbs, P. J. (2008). The Taguchi methodology as a statistical tool for biotechnological applications: a critical appraisal. Biotechnology journal, 3(4):510–523.
10. Srinivas, A. and Venkatesh, Y. (2012). Application of Taguchi method for optimization of process parameters in improving the surface roughness of lathe facing operation. Int. Refereed J. Eng. Sci, 1(3):13–19.
11. Tian, X., Qiao, H., and Chu, X. (2012). Wear performance of bonded composite coatings under dry sliding. Surface and Coatings Technology, 240:191–196.
12. Weinhuber, K. and Klaus, A. (2010). Basics of car paint. Communication. Publishing House, Warszawa.
13. Yokoyama, Y. et al. (1993). Taguchi methods: design of experiments, volume 4. Amer Supplier Inst.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-e4792ab9-241c-4941-8187-2c168f24fac0