Monitoring of a Micro-Smoothing Process With the Use of Machined Surface Images

Journal title

Metrology and Measurement Systems




No 3



Belt grinding process ; Surface roughness & micro-roughness ; Surface image ; Wavelet decomposition

Divisions of PAS

Nauki Techniczne




Polish Academy of Sciences Committee on Metrology and Scientific Instrumentation




Artykuły / Articles


DOI: 10.2478/v10178-011-0008-8


Grzesik W. (2007), Surface finish on hardened bearing steel parts produced by superhard and abrasive tools, International Journal of Machine Tool & Manufacture, 47, 255, ; Lewkowicz R. (2009), The new methods and heads for precision microfinishing with application of microfinishing films, null. ; Mezghani S. (2009), New criterion of grain size choice for optimal surface texture and tolerance in belt finishing production, Wear, 5-6, 578, ; Lewkowicz R. (2010), Finishing microsmoothing super smooth ceramic surface, Materials of XXXIII School of Science Abrasive Machining. ; Mezghani S. (2008), Abrasiveness properties assessment of coated abrasives for precision belt grinding, Surface & Coatings Technology, 5-7, 786, ; Adamczak S. (2002), The simulation method for the determination of the measuring error of a curvilinear profile exemplified by a circle using a co-ordinate measuring machine, Metrology & Measurement Systems, 3, 291. ; Zawada-Tomkiewicz A. (2009), Surface evaluation with the use of combined material probability curve calculated for machined surface image, Materials of XXXII School of Science Abrasive Machining. ; Zawada-Tomkiewicz A. (2010), Estimation of surface roughness parameter based on machined surface image, Metrology & Measurement Systems, 3, 493, ; Jourani A. (2005), Effect of the belt grinding on the surface texture: Modeling of the contact and abrasive wear, Wear, 259, 1137, ; Mezghani S. (2009), Wear mechanism maps for the belt finishing of steel and cast iron, Wear, 1-4, 86, ; Ściegienka, R. (2008). <i>Fundamentals of conditions and parameters of selection processes, micro-smooth surface using a plastic abrasive belts</i>, PhD thesis, Koszalin University of Technology. (in Polish) ; Lewkowicz R. (2009), Modern methods of treatment of super-smooth surface of the precision cars components, null. ; Lewkowicz R. (2009), Modern methods of microfinishing super-smooth surfaces of car engines and suspensions parts, Logistics, 6. ; Reference materials from the producers of grinding tools: 3M, GEM. LÖSER, SUPFINA. ; Tomkiewicz D. (2002), A measurement system for estimation of the water content in grain based on dynamic drying process model, Metrology & Measurement Systems, 4, 401. ; Zawada-Tomkiewicz A. (2010), Measurement of tool flank wear with the use of white light interferometer, PAK, 8, 950. ; Zawada-Tomkiewicz A. (2010), Application of discrete wavelet transform to reduce noise in the image of machined surface, Engineering and Production Management, 13, 173. ; Zawada-Tomkiewicz A. (2007), Monitoring the quality of machined surface using the LabView environment, PAK, 8, 79. ; Adamczak S. (2011), Analyzing the variations in roundness profile parameters during the wavelet decomposition process using the MATLAB environment, Metrology & Measurement Systems, 1, 25, ; Zawada-Tomkiewicz A. (2007), Image analysis of machined surface for the purpose of estimating the parameters of the surface, Acta Mechanica et Automatica, 2, 21.