Roughness of Metal Surface After Finishing Using Ceramic Brush Tools
References
- 1. Burakowski T., Wierzchoń T., Inżynieria powierzchni metali. WNT, Warsaw, 1995.
- 2. LOESER company materials.
- 3. Iwaszko J., Kudła K., Szafarska M., Remelting treatment of the non-conductive oxide coatings by means of the modified GTAW method, Surface and Coatings Technology, 206, (2012), 2845-2850.
- 4. Górka J., Czupryński A., The properties and structure of arc sprayed coatings alloy of Fe-Cr-Ti-Si-Mn, International Journal of Modern Manufacturing Technologies, 8 (2016), 35-40.
- 5. Czupryński A., Selected properties of the thermally sprayed oxide ceramic coatings, Advances in Materials Science, 15 (3) (2015), 17-32.
- 6. Pan S., Wang N., Xiong D., Deng Y., Shi Y., Fabrication of superhydrophobic coating via spraying method and its applications in anti-icing and anti-corrosion, Applied Surface Science, 389 (2016), 547-553.
- 7. Czupryński A., Górka J., Adamiak M., Tomiczek B., Testing of flame sprayed Al2O3 matrix coatings containing TiO2, Archives of Metallurgy and Materials, 61 (3) (2016), 1363-1370.
- 8. Bartmański M., Berk A., Wójcik A., The determinants of morphology and properties of the nanohydroxyapatite coating deposited on the Ti13Zr13Nb alloy by electrophoretic technique, Advances in Materials Science, 16 (3) (2016), 56-66.
- 9. Świercz R., Oniszczuk-Świercz D., Experimental investigation of surface layer properties of high thermal conductivity tool steel after electrical discharge machining, Metals, 7 (2017), 550.
- 10. Samardžiová M., Neslušan M., Roughness improvement in hard turning when changing cutting parameters and using differently shaped ceramic tools, Applied Mechanics and Materials, 474 (2014), 345-350.
- 11. Swiatkowski K., Cacko R., Investigation of new wax-based model materials simulating metal working process, Journal of Materials Processing Technology, 72 (1997), 267-271.
- 12. Makarov V.F., Vinogradov A.V., Nurtdinov A.V., Automated polishing of sharp edges on gas-turbine components by abrasive polymer brushes, Russian Engineering Research, 32 (2012), 102-107.
- 13. Bańkowski D., Spadło S., Influence of the Smoothing Conditions in Vibro-Abrasive for Technically Dry Friction the Parts Made of Steel X160CRMOV121, Proceedings of 25th International Conference on Metallurgy and Materials, METAL 2016, 1019-1024.
- 14. Chmielewski T., Golański D., Włosiński W., Zimmerman J., Utilizing the energy of kinetic friction for the metallization of ceramics, Bulletin of the Polish Academy of Sciences - Technical Sciences, 63 (1) (2015), 201-207.
- 15. Dou W., Nitzan A., Subotnik J.E., Frictional effects near a metal surface, The Journal of Chemical Physics, 143 (2015) 054103.
- 16. Chmielewski T., Golański D., Włosiński W., Metallization of ceramic materials based on the kinetic energy of detonation waves Bulletin of the Polish Academy of Sciences - Technical Sciences, 63 (2) (2015), 449-456.
Language: English
Page range: 20 - 27
Published on: Apr 24, 2018
Published by: Gdansk University of Technology
In partnership with: Paradigm Publishing Services
Publication frequency: 4 times per year
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© 2018 T. Salacinski, T. Chmielewski, M. Winiarski, R. Cacko, R. Świercz, published by Gdansk University of Technology
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.