Details Details PDF BIBTEX RIS Title Mathematical Model of Dynamic Work Conditions in the Measuring Chamber of an Air Gauge Journal title Metrology and Measurement Systems Yearbook 2012 Numer No 1 Authors Jermak, Czeslaw ; Spyra, Andrzej ; Rucki, Miroslaw Keywords air gauges ; dynamic measurement ; in-process control Divisions of PAS Nauki Techniczne Coverage 29-38 Publisher Polish Academy of Sciences Committee on Metrology and Scientific Instrumentation Date 2012 Type Artykuły / Articles Identifier DOI: 10.2478/v10178-012-0002-2 ; ISSN 0860-8229 Source Metrology and Measurement Systems; 2012; No 1; 29-38 References Hennessy R. (2005), Use air to improve measurements; manufacturers turn to air gaging for high-resolution measurements, Quality Magazine, 30. ; Zelczak A. (2002), Pneumatic dimensional measurements. ; Rucki M. (2010), Air gauges as a part of the dimensional inspection systems, Measurement, 43, 1, 83, doi.org/10.1016/j.measurement.2009.07.001 ; Jermak Cz. (2009), Evaluation of the response time of air gauges in industrial applications, Metrology and Measurement Systems, 16, 4, 689. ; Yandayan T. (1997), In-process dimensional measurement and control of workpiece accuracy, International Journal of Machine Tools and Manufacture, 37, 10, 1423, doi.org/10.1016/S0890-6955(97)00019-9 ; Menzies I. (2009), In-process detection of surface porosity in machined castings, International Journal of Machine Tools & Manufacture, 49, 530, doi.org/10.1016/j.ijmachtools.2008.12.008 ; Wang Y. (2005), An Automatic Sorting System Based on Pneumatic Measurement, Key Engineering Materials, 295. ; Koshy P. (2011), Pneumatic non-contact topography characterization of finish-ground surfaces using multivariate projection methods, Precision Engineering, 35, 282, doi.org/10.1016/j.precisioneng.2010.11.001 ; Jermak Cz. (2010), Novel method of non-contact out-of-roundness measurement with air gauges, null, 71. ; Rucki M. (2009), Response Time Of Air Gauges with Different Volumes of the Measuring Chambers, Metrology and Measurement Systems, 16, 2, 289. ; Rucki M. (2007), Step Response of the Air Gauge, Metrology and Measurement Systems, 14, 3, 429. ; Rucki M. (2010), Dynamic calibration of air gauges, Archives of Mechanical Technology and Automation, 30, 2, 129. ; Finkelstein L. (2007), Reflections on a century of measurement science as an academic discipline, Metrology and Measurement Systems, 14, 4, 635. ; Janiczek T. (2010), Linear dynamic system identification in the frequency domain using fractional derivatives, Metrology and Measurement Systems, 17, 2, 279, doi.org/10.2478/v10178-010-0024-6 ; Woelke M. (2007), Eddy Viscosity Turbulence Models employed by Computational Fluid Dynamic, Transactions of the Institute of Aviation, Scientific Quarterly, 4, 191. ; Dobrowolski B. (1988), Digital Simulation of Air Flow Through a Nozzle of Pneumatic Gauge, null, 67. ; <i>Theory and Practice of Air Gauging</i> (2011), Monography, ed. Cz.J. Jermak, TU Poznan. ; Lauder B. (1974), The Numerical Computation of Turbulent Flows, Computer Methods in Applied Mechanics and Engineering, 3, 269, doi.org/10.1016/0045-7825(74)90029-2 ; Patankar S. (1980), Numerical heat transfer and fluid flow. ; Dobrowolski B. (1992), Theoretical analysis of the axial symmetric deformation of the velocity field and stream turbulences influences on the metrological properties of the measuring nozzles, Studies and Monographies, 59. ; Dobrowolski B. (2005), Usability of selected turbulence models for simulation flow through a pipe orifice, Task Quarterly, 9, 4, 439.