References
- 1. Adamczak S., Janecki D., Stępień K. (2010), Qualitative and quantitative evaluation of the accuracy of the V-block method of cylindricity measurements, Precision Engineering, 34, 619–626.
- 2. Cellary A., Jermak Cz. J. (2009), Pneumatic Method for Reference Out-Of-Roundness Measurement, Proceedings of the 4th International Conference Metrology in Production Engineering, Poznan – Zerkow, 59–64.
- 3. Derezynski J., Jakubowicz M. (2016), Verification tests of the air gauges metrological characteristics, Mechanik, 3, 196–199.
- 4. Dmitriev V.N., Chernyshev V.I. (1958), Calculation of the time domain characteristics of the pneumatic flow-through chambers, Avtomatika i telemehanika, 12, 1118–1125 (in Russian).
- 5. Figliola R.S., Beasley D.E. (2006), Theory and Design for Mechanical Measurements, 4th ed., John Wiley& Sons Inc., Clemson.
- 6. Gao R.D., Tang X., Gordon G., Kazmer D.O. (2014), Online product qualty monitoring through in-process measurement, CIRP Annals – Manufacturing Technology, 63(1), 493–496.
- 7. Grandy D., Koshy P., Klocke F. (2009), Pneumatic non-contact roughness assessment of moving surfaces, CIRP Annals – Manufacturing Technology, 58(1), 515–518.
- 8. Jermak Cz. J., Rucki M. (2012), Air Gauging: Static and Dynamic Characteristics, IFSA, Barcelona.
- 9. Jermak Cz.J., Cellary A., Rucki M. (2010), Novel method of non-contact out-of-roundness measurement with air gauges, Proceedings of the euspen 10th International Conference, Delft, 71–74.
- 10. Jun Liu et al. (2012), Design and accuracy analysis of pneumatic gauging for form error of spool valve inner hole, Flow Measurement and Instrumentation, 23, 26–32.
- 11. Menzies I., Koshy P. (2009), In-process detection of surface porosity in machined castings, International Journal of Machine Tools & Manufacture, 49(6), 530–535.
- 12. Milo M.W., Roan M., Harris B. (2015), A new statistical approach to automated quality control in manufacturing processes, Journal of Manufacturing Systems, 36, 159–167.
- 13. O’Neill P., Sohal A., Teng Ch.W. (2016), Quality management approaches and their impact on firms’ financial performance – An Australian study, International Journal of Production Economics, 171, 381–393.
- 14. Pollard J.H. (1977), A Handbook of Numerical and Statistical Techniques, Cambridge University Press, Cambridge.
- 15. Rucki M. (2011), Dynamic properties of the back-pressure air gauges with small measuring chambers, Poznan University of Technology, Poznan (in Polish).
- 16. Rucki M., Barisic B. (2009), Response Time of Air Gauges With Different Volumes of the Measuring Chambers, Metrology and Measurement Systems, 16(2), 289–298.
- 17. Rucki M., Jermak Cz. J. (2012), Dynamic Properties of Small Chamber Air Gages, Journal of Dynamic Systems, Measurement, and Control, 134(1), p. 011001 (6 pages).
- 18. Shiraishi M., Yamagiwa T., Ito A. (2002), Practical dimensional error control and surface roughness inspection in turning, Proceedings of ASME-2002 Mechanical Engineering Congress and Exposition, New Orleans, 45–51.
- 19. Stępień K. (2010), In situ measurement of cylindricity – Problems and solutions, Precision Engineering, 38, 697–701.
- 20. Tsidulko F.V. (1965), Dynamics of the pneumatic devices for the dimensional measurement, Mashinostroyeniye, Moskva (in Russian).
- 21. Vacharanukul K., Mekid S. (2005), In-Process Dimensional Inspection Sensors, Measurement, 38, 204–218.
- 22. Valicek J. et al. (2007), An investigation of surfaces generated by abrasive waterjets using optical detection, Journal of Mechanical Engineering, 53(4), 224–232.
- 23. Wang Y. H. et al. (2005), An Automatic Sorting System Based on Pneumatic Measurement, Key Engineering Materials, 295-296, 563–568.
- 24. Wieczorkowski S. (1995), Automatic regulation of the rotational speed of the pneumatic misroturbines, Research Publication Series of Lodz University of Technology, No. 703, Lodz (in Polish).
- 25. Yribarren R. (1955), The pneumatic method applied to dynamic measurement, Proceedings of the Symposium on Engineering dimensional metrology, London, 225–240.