Titel: Simulation of industrial environment in Large Volume Metrology
Autoren: Wiśniewski, Mariusz, Length and Angle Department, Central Office of Measures, Warsaw, Poland
Czułek, Dariusz, Length and Angle Department, Central Office of Measures, Warsaw, Poland
Szumski, Robert, Length and Angle Department, Central Office of Measures, Warsaw, Poland
Beitragende: HostingInstitution: Physikalisch-Technische Bundesanstalt (PTB), ISNI: 0000 0001 2186 1887
Seiten:4
Sprache:en
DOI:10.7795/810.20150325H
Art der Ressource: Text / Article
Herausgeber: Physikalisch-Technische Bundesanstalt (PTB)
Daten: Verfügbar: 2015-04-15
Datei: Datei herunterladen (application/pdf) 133.25 kB (136443 Bytes)
MD5 Prüfsumme: 5df58d034a8e2d45be81a172070d18c7
SHA256 Prüfsumme: 59c204ddd1b3edab78213ae3bd60cbe6882d60a6c8ca8a58680311b8cc20d3c1
Zusammenfassung: The monitoring system which consist of 40 air temperature sensors, 5 relative humidity sensors and
one air pressure sensor was prepared and used for determination of environmental conditions on the 50
m interferometric comparator. Large gradients along the test bench and rapid changes in local
conditions were obtained. The uncertainty of the measuring system was estimated using Monte Carlo
method. The uncertainty of calculation of refractive index of air was estimated on u(n) = 0,000 000 42. This
level of uncertainty fulfils requirements for the verification of the CNAM and PTB measurement
systems in harsh condition environment.
Anderes: This article is based on a presentation at the conference "MacroScale 2014 - Recent developments in traceable dimensional measurements", Vienna (Austria), 28th-30th October 2014.
Zitierform: WIŚNIEWSKI, Mariusz, Dariusz CZUŁEK and Robert SZUMSKI. Simulation of industrial environment in Large Volume Metrology. Physikalisch-Technische Bundesanstalt (PTB), 2015. doi: 10.7795/810.20150325H
Bemerkung: This article is based on a presentation at the conference "MacroScale 2014 - Recent developments in traceable dimensional measurements", Vienna (Austria), 28th-30th October 2014.