Title

Problem of Non-Measured Points in Surface Texture Measurements

Journal title

Metrology and Measurement Systems

Yearbook

2017

Volume

vol. 24

Issue

No 3

Authors

Pawlus, Paweł ; Reizer, Rafał ; Wieczorowski, Michał

Keywords

surface texture measurements ; optical method ; non-measured points ; white light interferometer

Divisions of PAS

Nauki Techniczne

Coverage

525–536

Publisher

Polish Academy of Sciences Committee on Metrology and Scientific Instrumentation

Date

2017.09.30

Type

Artykuły / Articles

Identifier

DOI: 10.1515/mms-2017-0046 ; ISSN 2080-9050, e-ISSN 2300-1941

Source

Metrology and Measurement Systems; 2017; vol. 24; No 3; 525–536

References

Salazar (2012), On roughness measurement by angular speckle correlation, Meas Syst, 13, 373. ; Lipiński (2016), Metrological aspects of abrasive tool active surface topography evaluation, Meas Syst, 23, 567. ; Pawlus (null), study of variations of areal parameters on machined surfaces Prop, Surf, 26, 2015. ; Twardowski (2011), Surface roughness analysis in milling tungsten carbide with CBN cutters, Meas Syst, 18, 105. ; Mummery (1990), Surface texture analysis the handbook GmbH, null, 15. ; Krolczyk (2016), Metrological Changes in Surface Morphology of High - Strength Steels in Manufacturing Processes, Measurement, 176. ; Yousfi (null), Smoothness and plateauness contributions to the running - in friction and wear of stratified helical slide and plateau honed cylinder liners, Wear, 30, 2015. ; Johansson (2008), New cylinder liner surfaces for low oil consumption, Int, 29, 9. ; Krolczyk (2014), Experimental analysis by measurement of surface roughness variations in turning process of duplex stainless steel, Meas Syst, 21, 759. ; Murugarajan (2011), modelling and evaluation of surface parameter using capacitive - sensor - based measurement system, Measurement Meas Syst, 11, 403. ; De Groot (null), Principles of interference microscopy for the measurement of surface topography, Adv Opt, 23, 2015. ; Zawada (2010), Estimation of surface roughness parameter based on machined surface image, Metrol Meas Syst, 12, 493. ; Wojciechowski (2014), Surface texture analysis after ball end milling with various surface inclination of hardened steel, Meas Syst, 21, 145. ; Li (2004), Robust estimation in gaussian filtering for engineering surface characterization, Precis Eng, 18, 186. ; Vorburger (2007), Comparison of optical and stylus methods for measurement of surface texture, Int J Adv Manuf Tech, 22, 110. ; Dobrzanski (2010), Digital filtering of surface topography : Part II Applications of robust and valley suppression filters Precis, Eng, 19, 651. ; Leach (2011), Optical measurement of surface topography, null, 21. ; Whitehouse (2011), Surface metrology today complicated confusing effective of the th International Conference on Metrology and properties of Engineering Surfaces Stadium, Proc, 20, 1. ; Krolczyk (2016), Surface morphology analysis of Duplex Stainless in Clean Production using the Power Spectral Density, Measurement, 464. ; Brinkman (2000), of a robust Gaussian regression filter for three - dimensional surface analysis International Colloquium on Surfaces Chemnitz, Development, 17, 122. ; Whitehouse (1983), Some theoretical aspects of a practical measurement problem in plateau honing, Int J Prod Res, 14, 215. ; Brinkman (2003), Gaussian filters surface topography eds, Advanced Assessment Science, 16, 62. ; Mezghani (2013), Mutual influence of crosshatch angle and superficial roughness of honed surfaces on friction in ring - pack tribo - system, Int, 31, 54. ; Groot (2011), de Coherence scanning interferometry Optical Measurement of Surface Topography ed Verlag, null, 24. ; Wieczorowski (2010), The use of surface asperities analysis to investigate wear of bodies in contact on example of brake elements, Meas Syst, 17, 271. ; Blateyron (2013), The areal field parameters Characterisation of Areal Surface Texture, null, 15. ; Podulka (2014), removal in surface measurement, Phys Conf Ser, 25, 483. ; Dzierwa (2014), Variability of areal surface topography parameters due to the change in surface orientation to measurement direction, Scanning, 27, 170.