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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Znaczenie doboru natężenia oświetlenia w pomiarach chropowatości z wykorzystaniem profilometru optycznego
Konferencja
Międzynarodowa Konferencja MiInnovative Manufacturing Technology IMT 2014
Języki publikacji
Abstrakty
Several isotropic and anisotropic surface topographies were analysed. Surface measurements were made using white light interferometer Talysurf CCI Lite, version 2.8.2.95. All surfaces were measured with different light intensity. Light intensity was changed in the range 10%–90% every time at 5%. After measurement each surface was levelled and non-measured points were filled up. Parameters from ISO 25178 group and parameters from the Sk family were calculated. Parameters were calculated using the software Talymap Gold, version 6.0. Influence of light intensity on the change of surface topography parameters was analysed.
W pracy badano wpływ doboru natężenia oświetlenia na wyniki pomiarów parametrów chropowatości, jak również wpływ tegoż natężenia na ilość punktów niezmierzonych z wykorzystaniem interferometru światła białego Talysurf CCI light. Badaniu poddano zarówno próbki anizotropowe (szlifowane), jak i izotropowe (kulowane). Natężenie oświetlenia zmieniano w zakresie od 10 do 90% każdorazowo co 5%. Określono wpływ zmiany natężenia oświetlenia na jakość pomiaru oraz na zmianę wartości parametrów chropowatości.
Czasopismo
Rocznik
Tom
Strony
123--135
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
autor
- Rzeszow University of Technology, Department of Manufacturing Process and Production Engineering
Bibliografia
- 1 BLUNT L.A.. JIANG. X.. Advanced techniques for assessment surface topography. Kogan Page Science. 2003.
- 2 BRENNAN J. K.. Algorithms for surface texture profiles and parameters. Doctoral thesis. University of Huddersfield. 2010.
- 3 BRUZZONE A.A.G.. COSTA H.L.. LONARDO P.M.. LUCCA D.A.. Advances in engineered surfaces for functional performance. W: Ann. CIRP 57. 2008. 750–769.
- 4 De CHIFFRE L.. KUNZMANN H.. PEGGS G.N.. LUCCA D.A.. Surfaces in precision engineering. micro-engineering and nanotechnology. W: Ann. CIRP 52. 2003. 561–577.
- 5 DONG W.P.. MAINSAH E.. STOUT K.J.. Comprehensive study of parameters for characterizing three-dimensional surface topography. I: Statistical properties of parameters variations. W: Wear. vol. 159. 1992. 161-171.
- 6 DONG W.P.. MAINSAH E.. STOUT K.J.. Comprehensive study of parameters for characterizing three-dimensional surface topography. II: Statistical properties of parameters variations. W: Wear. vol. 159. 1992. 161-171.
- 7 DZIERWA A.. REIZER R.. PAWLUS P.. GRABON W.. Variability of areal surface topography parameters due to the change in surface orientation to measurement direction. W: Scanning vol. 36. 2014. 170–183.
- 8 EVANS C.J.. BRYAN J.B.. “Structured”. “textured”. “engineered” surfaces. W: Ann. CIRP 48. 1999. 541–556.
- 9 LEACH R.. Optical Measurement of Surface Topography. Springer. Heidelberg. 2011.
- 10 LONARDO P.M.. LUCCA D.A. De CHIFFRE L.E.. Emerging trends in surface metrology. W: Ann. CIRP 51. 2002. 701–723.
- 11 PAWLUS P.. Digitisation of surface topography measurement results. Measurement vol. 40. 2007. 672–686.
- 12 PAWLUS P.. GRABON W.. REIZER R.. Variation of areal parameters on machined surfaces. 11th International Symposium on Measurement and Quality Control 2013. Cracow-Kielce. Poland.
- 13 STOUT K.J. (ed). Three-dimensional surface topography – measurement. interpretation and application. Penton Press. London 1994.
- 14 THOMAS T.R.. Rough Surfaces. Second Edition. Imperial College Press. London 1999.
- 15 THOMAS T.R.. CHARLTON G.. Variation of roughness parameters on some typical manufactured surfaces. Precision Engineering. vol. 3(2). 1981. 91-96.
- 16 WHITEHOUSE D.J.. Surfaces and Their Measurement. Hermes Penton. London. 2001
Typ dokumentu
Bibliografia
Identyfikator YADDA
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