BazEkon - Biblioteka Główna Uniwersytetu Ekonomicznego w Krakowie

BazEkon home page

Meny główne

Gawlik Józef (Cracow University of Technology, Poland), Niemczewska-Wójcik Magdalena (Cracow University of Technology, Poland), Krajewska Joanna (Cracow University of Technology, Poland), Sokhan Serghej V. (Institute for Superhard Materials, Kiev, Ukraine), Paščenko E.A. (Institute for Superhard Materials, Kiev, Ukraine), Žuk T.S. (National Technical University of Ukraine "Kyiv Polytechnic Institute")
The Influence of Tool Composite's Structure During Process of Diamond Grinding of Ceramic Materials
Management and Production Engineering Review, 2014, vol. 5, nr 4, s. 9-17, rys., tab., fot., bibliogr. 16 poz.
Słowa kluczowe
Inżynieria materiałowa, Proces produkcji, Produkcja
Materials engineering, Production process, Production
This paper presents the results of the tests performed during the grinding process of the ceramic materials: - polycrystalline ceramics (Zirconium ZrO2) and mono-crystalline ceramics (sapphire -Al2O3) by the diamond tools. Studies have shown that the concentration (thickening) of the tool composite changes the tool's pore structure when using suitable wetted adamantine additives. Such modified composite has positive impact on tribological properties of the subsurface layer of the machined components. This is manifested by the reduction of the surface roughness and reduction of the vibration amplitude of the coefficient of friction. The possibilities of the positive effects when using wetted additives on the tool's composite during the pressing (briquetting) stage confirm the study results. (original abstract)
Pełny tekst
  1. Rozenberg O.A., Voznyj V., Sochan' S., Mamalis A.G., Gawlik J., Kim D., Trends in developments in the manufacturing of hip joint: an overview, Int. J. Adv. Manuf. Technol., 27, 537-542, 2006, DOI:10.1007/s00170-004- 2189-1.
  2. Yan J., Zhang Z., Kuriyagawa T., Gonda H., Fabricating micro-structured surface by using singlecrystalline diamond end mill, Int. J. Adv. Manuf. Technol., 51, 957-964, 2010, DOI 10.1007/s00170-010-2695- 2.
  3. Flexible abrasive machining in medical technology. Machining of metals and construction of machine tools [in Russian], 10, 30-32, 2011.
  4. Arlamackij A.L., Abrasive machining of optical parts. Published by Mašinostroenie [in Russian], Leningrad, pp. 232, 1978.
  5. Endoprosthesis of the hip: materials and technologies [in Russian]. Edited by a member of the National Academy of Science of Ukraine N.V. Novikova and by O.A. Rozenberga and J. Gawlik, Published by: Institute for Superhard Materials of the National Academy of Science of Ukraine, ISBN 978-966-2316-53-7, Kiev 2011, pp. 527.
  6. Gawlik J., Krajewska J., Niemczewska-Wojcik M., Precision Machining of Ceramic Parts, Advances in Manufacturing Sciences and Technology, 37, 4, 19-30, 2013.
  7. Niemczewska-Wojcik M., Gawlik J., Sładek J.,The measurement and analysis of surface geometric structure of ceramic femoral heads - SCANNING, 36, 1, 105-114, 2014, DOI 10.1002/sca.21106, Chichester, United Kingdom.
  8. Niemczewska-Wojcik M., The microscopic analysis of material's surfaces for use in medicine, Tribology - Friction, Wear, Lubrication, 3, 205- 213, 2008.
  9. Niemczewska-Wojcik M., Mathia Thomas, Wojcik A., Measurement Techniques Used for Analysis of the Geometric Structure of Machined Surfaces, Management and Production Engineering Review, 5, 2, 27-32, 2014.
  10. Suslov A.G., Gorlenko O.A., Experimental and statistical methods of assurance of the surface quality of the machine part [in Russian], Published by Mašinostroenie, pp. 303, 2003.
  11. Gusev V.V., Kalafatova L.P., Technological assurance of machining quality of the technological ceramic's parts [in Russian], Published by Donieck: GVUZ DonNTU, pp. 250, 2012.
  12. Morozov E.M, Zernin M.V, The task of the mechanics of destruction [in Russian], Published by Mašinostroenie, pp. 544, 1999.
  13. Gusev V.V., Assurance of operating characteristics of the subsurface layers of the structural ceramics [in Russian], Guidebook. Published by Mašinostroenie. Magazine of "Surface Engineering" Annex, 9, 2-5, 2002.
  14. Woźniak K., Abrasive materials - production and properties, WNT, Warszawa, 1982.
  15. Sokhan S.V., Regularity of the abrasive-diamond lapping process of the spherical ceramic parts [in Russian], Superhard Materials, 3, 64-83, 2004.
  16. Technological system of innovative methods for the machining of materials with special properties. Project NR03 0031 10, sponsored by The National Centre for Research and Development.
Cytowane przez
Udostępnij na Facebooku Udostępnij na Twitterze Udostępnij na Google+ Udostępnij na Pinterest Udostępnij na LinkedIn Wyślij znajomemu