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Identification and analysis of optimal method parameters of the V-block waviness measurements

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
At the Kielce University of Technology, a new method of waviness measurement of cylindrical surfaces has been developed. The article deals with the research conducted to find the optimal V-block method parameters that can be used in a measuring device applied to waviness measurement of cylindrical surfaces. In order to keep high measuring accuracy of V-block method, all detectability coefficients which are function of V-block method parameters should not be negative. For this purpose computations were carried out in order to find such angular parameters that can be easily applied in measuring device and allow for obtaining positive detectability coefficients. Results of the study presented in this paper make it possible to modify the design of the measuring device. According to the authors, it will result in increasing the accuracy of V-block waviness measurement of cylindrical parts.
Rocznik
Strony
325--332
Opis fizyczny
Bibliogr. 20 poz., fot., rys., wykr.
Twórcy
autor
  • Faculty of Mechatronics and Mechanical Engineering, Kielce University of Technology, 7 1000-lecia P. P. Ave., PL-25314 Kielce, Poland
autor
  • Faculty of Mechatronics and Mechanical Engineering, Kielce University of Technology, 7 1000-lecia P. P. Ave., PL-25314 Kielce, Poland
autor
  • Faculty of Mechatronics and Mechanical Engineering, Kielce University of Technology, 7 1000-lecia P. P. Ave., PL-25314 Kielce, Poland
Bibliografia
  • [1] A. Zawada-Tomkiewicz and J. Ściegienka, “Monitoring of a micro- smoothing process with the use of machined surface images”, Metrology and Measurement Systems 18 (3), 419-428 (2011).
  • [2] S. Adamczak, J. Bochnia and Cz. Kundera, “Stress and strain measurements in static tensile tests”, Metrology and Measurement Systems 19 (3), 531-540 (2012).
  • [3] M.D. Bryant, A. Tewari and D. York, “Effects of micro (rocking) vibrations and surface waviness onwear and wear debris”, Wear 216, 60-69 (1997).
  • [4] A. Bąkowski and L. Radziszewski, “Determining selected diesel engine combustion descriptors based on the analysis of the coefficient of variation of in-chamber pressure”, Bull. Pol. Ac.: Tech. 63(2), 457-464 (2015).
  • [5] B. Gapiński and M. Wieczorowski, “Measurement of Diameter and Roundness on Incomplete Outline of Element with Three-Lobbing Deviation”, 24th DAAAM International Symposium On Intelligent Manufacturing And Automation, 2013, Book Series: Procedia Engineering 69, 247-254 (2014).
  • [6] S. H. R. Ali, “The influence of strategic parameters on roundness accuracy development”, 11th IMEKO TC14 International Symposium on Measurement and Quality Control. Cracow, Poland, September 2013, 287-297 (2013).
  • [7] S. Adamczak., P. Zmarzły and D. Janecki, “Theoretical and practical investigations of V-block waviness measurement of cylindrical parts”, Metrology and Measurement Systems 22 (2), 181-192 (2015).
  • [8] D. Janecki , J. Zwierzchowski and L. Cedro, “A problem of optimal cylindricity profile matching”, Bull. Pol. Ac.: Tech. 63(3), 771-779 (2015).
  • [9] D. Janecki and J. Zwierzchowski, “A method for determining the median line of measured cylindrical and conical surfaces”, Meas. Sci. Technol. 26, 1-9 (2015)
  • [10] R. Thalmann and J. Spiller, “A primary roundness measuring machine”, Recent Developments in Traceable Dimensional Measurements III, Proceedings SPIE 5879, 1-10 (2005).
  • [11] F. W. Witzke, “In situ out-of-roundness measurement”, Proceeding of the Institution of Mechanical Engineering 182 (3), 430-437 (1968).
  • [12] H. Yu, M. Xu and J. Zhao, “In-situ roundness measurement and correction for pin journals in oscillating grinding machines”, Mechanical Systems and Signal Processing 50-51, 548-562 (2015).
  • [13] B. Muralikrishnan, S. Venkatachalam, J. Raja and M. Malburg, “Note on the three-point method for roundness measurement”, Precision Engineering 29, 257-260 (2005).
  • [14] S. Adamczak, P. Zmarzły and K. Stępień, “Assessment of an influence of real values of V-block method parameters on the method accuracy of V-block waviness measurement of rotary machine parts”, Solid State Phenomena 237, 112-117 (2015).
  • [15] A. Janusiewicz, S. Adamczak, W. Makieła and K. Stępień, “„Determining the theoretical method error during an on-machine roundness measurement”, Measurement 44, 1761-1767 (2011).
  • [16] L. Ocenasova, B. Gapinski, R. Cep, L. Gregova, B. Barisic, J. Novakova and L. Petrkovska, “Roundness Deviation Measuring Strategy at Coordination Measuring Machines and Conventional Machines”, World Academy of Science, Engineering and Technology32, 523-526 (2009).
  • [17] M. Poniatowska, “Research on spatial interrelations of geometric deviations determined in coordinate measurements of free-form surfaces”. Metrology and Measurement Systems 16 (3), 501-510 (2009).
  • [18] J. Sładek, K. Ostrowska and A. Gąska, “Modeling and identification of errors of coordinate measuring arms with use of metrological model”, Measurement 46, 667-679 (2013).
  • [19] B. Gapiński, M. Wieczorowski, L. Marciniak-Podsadna, B. Dybala and G. Ziolkowski, “Comparison of Different Method of Measurement Geometry using CMM, Optical Scanner and Computed Tomography 3D”, Procedia Engineering 69, 255-262 (2014).
  • [20] K. Nozdrzykowski and D. Janecki, “Comparative studies of reference measurements of cylindrical profiles of large machine components”, Metrology and Measurement Systems 21 (1), 67-76 (2014).
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-765ad61f-7127-4792-b825-39a9b8d05297
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