[1. Bokov V.B. (2011), Pneumatic gauge steady-statemodelling by theoretical and empirical methods, Measurement, 44, 303-311.10.1016/j.measurement.2009.01.015]Search in Google Scholar
[2. Breitinger R. (1971), New Pneumatic Measuring Gauges, Fertigungtechnik, 61, 225–227, (in German)]Search in Google Scholar
[3. Crnojevic C, Roy G, Bettahar A, Florent P. (1997), The Influence of the Regulator Diameter and Injection Nozzle Geometry on the Flow Structure in Pneumatic Dimensional Control Systems, Journal of Fluids Engineering, 119, 609–615.10.1115/1.2819288]Search in Google Scholar
[4. Dejč M.E. (1961), Technical, Gosènergoizdat, Moskva–Leningrad, (in Russian)]Search in Google Scholar
[5. Idel’čik I.E. (1960), Hydraulic Resistances Directory, Gosènergoizdat, Moskva, (in Russian)]Search in Google Scholar
[6. Jermak Cz.J, Rucki M. (2016) Dynamics of the non-contac troundness measurement with air gages, Acta Mechanica et Automatica, 10(3), 227-232.10.1515/ama-2016-0035]Search in Google Scholar
[7. Jermak Cz.J. (2010), Methods of Shaping the Metrological Characteristics of Air Gages, Journal of Mechanical Engineering, 56(6), 385-390.]Search in Google Scholar
[8. Jermak Cz.J. (2012), Theoretical and Practical Aspects of Shaping of Static Metrological Properties of Length Air Gauges Wyd. Politechniki Poznańskiej, Seria Rozprawy, nr 476, (in Polish)]Search in Google Scholar
[9. Jermak Cz.J., Rucki M. (2012), Air Gauging: Static and Dynamic Characteristics, IFSA, Barcelona.]Search in Google Scholar
[10. Kazimierski Z., Krysiński J. (1981), Gas Bearing Arrangement and Microturbine Drives, WNT, Warszawa, (in Polish)]Search in Google Scholar
[11. Lammel L., Osiadacz A. (1974), Pneumatic Signals in Automation, WNT, Warszawa, (in Polish)]Search in Google Scholar
[12. Lotze W. (1971), Design of Pneumatic Air Gauges, Feingerätetechnik, 29(9), 389–394, (in German)]Search in Google Scholar
[13. Minaev A.N. (1987), Mechanics of Liquid and Gas, Metallurgiâ, Moskva, (in Russian)]Search in Google Scholar
[14. Oleśkiewicz-Popiel Cz. (1981), Axial-symmetric Free and Striking Stream, Wyd. Politechniki Poznańskiej, Poznań. (in Polish)]Search in Google Scholar
[15. Project Report (2001), Design of Metodology of Improving of Properties of Pneumatic Lenght-measurement Gauges. Project Report KBN 1253/T07/00/18. (in Polish)]Search in Google Scholar
[16. Prosnak W.J. (1971), Fluid Mechanics – Gas Dynamics, t. 2, PWN, Warszawa, (in Polish)]Search in Google Scholar
[17. Rucki M. (2009), Reduction of Uncertainty in Air Gauge Adjustment Process, IEEE Transactions on Instrumentation and Measurement, 58(1), 52-57.10.1109/TIM.2008.2004978]Search in Google Scholar
[18. Schuetz G. (2015), Pushing the Limits of Air Gaging—And Keeping Them There, Quality Magazine, 54(7), 22-26.]Search in Google Scholar
[19. Tanner C.J. (1958), Air gauging – history and future developments, Institution of Production Engineers Journal, 37(7), 448-462.10.1049/ipej.1958.0053]Search in Google Scholar
[20. Theory of Pneumatic Sensors Integrated with Piezoceramical Pressure Transducer (1986-1990), Annual Research Report.CPBP 02.20, Nr III.02, Poznań–Warszawa. (in Polish)]Search in Google Scholar
[21. Tesar V. (2008), Characterisation of subsonic axisymmetric nozzles, Chemical Engineering Research and Design, 86, 1253–1262.10.1016/j.cherd.2008.04.012]Search in Google Scholar
[22. Tesar V. (2010), Characterisation of inexpensive, simplyshaped nozzles, Chemical Engineering Research and Design, 88, 1433-1444.10.1016/j.cherd.2010.03.008]Search in Google Scholar
[23. Vacharanukul K., Mekid S. (2005), In-Process Dimensional Inspection Sensors, Measurement, 38(3), 204-218.10.1016/j.measurement.2005.07.009]Search in Google Scholar
[24. Zalmanzon L.A. (1961), Flowing Elements of Pneumatic Control Appliances, Izd. Akademii Nauk SSSR, Moskva. (in Russian)]Search in Google Scholar
[25. Zelczak A. (2002), Pneumatic Length Measurements, WKŁ, Warszawa, (in Polish)]Search in Google Scholar