Vibrating Wire Viscometer with Nominal Wire Diameter of 0.15 mm:  Measurement of the Viscosity of Two Certified Reference Fluids, with Nominal Viscosities at T = 298 K and p = 0.1 MPa of (16 and 29) mPa·s, at Temperatures between (298 and 353) K and Pressures below 55 MPa

We have measured the viscosity of certified reference materials N10 and S20 with nominal viscosities at T = 298 K and p = 0.1 MPa of (16 and 29) mPa·s, respectively, at temperatures in the range (298 to 353) K and pressures between (0.1 and 55) MPa with a vibrating wire viscometer. This viscometer h...

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Veröffentlicht in:Journal of chemical and engineering data 2005-09, Vol.50 (5), p.1732-1735
Hauptverfasser: Sopkow, Terry, Goodwin, Anthony R. H, Hsu, Kai
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container_issue 5
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container_title Journal of chemical and engineering data
container_volume 50
creator Sopkow, Terry
Goodwin, Anthony R. H
Hsu, Kai
description We have measured the viscosity of certified reference materials N10 and S20 with nominal viscosities at T = 298 K and p = 0.1 MPa of (16 and 29) mPa·s, respectively, at temperatures in the range (298 to 353) K and pressures between (0.1 and 55) MPa with a vibrating wire viscometer. This viscometer had a nominal wire diameter of 0.15 mm and provided viscosities with an estimated expanded (k = 2) uncertainty of ±2 % over the viscosity range (3 to 70) mPa·s. The latter value represents about half the upper operating viscosity of this vibrating wire that is about 150 mPa·s. The measured viscosity was compared with values predicted by interpolation expressions for N10 and S20 that represents the measured viscosities of different lots of the same fluids to within ±2 %. The results reported here have an average absolute deviation from those interpolation equations of about 2.4 % for N10 and 2.7 % for S20. These differences are within the combined estimated uncertainties of the measurements.
doi_str_mv 10.1021/je050185v
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H ; Hsu, Kai</creator><creatorcontrib>Sopkow, Terry ; Goodwin, Anthony R. H ; Hsu, Kai</creatorcontrib><description>We have measured the viscosity of certified reference materials N10 and S20 with nominal viscosities at T = 298 K and p = 0.1 MPa of (16 and 29) mPa·s, respectively, at temperatures in the range (298 to 353) K and pressures between (0.1 and 55) MPa with a vibrating wire viscometer. This viscometer had a nominal wire diameter of 0.15 mm and provided viscosities with an estimated expanded (k = 2) uncertainty of ±2 % over the viscosity range (3 to 70) mPa·s. The latter value represents about half the upper operating viscosity of this vibrating wire that is about 150 mPa·s. The measured viscosity was compared with values predicted by interpolation expressions for N10 and S20 that represents the measured viscosities of different lots of the same fluids to within ±2 %. The results reported here have an average absolute deviation from those interpolation equations of about 2.4 % for N10 and 2.7 % for S20. 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H</creatorcontrib><creatorcontrib>Hsu, Kai</creatorcontrib><title>Vibrating Wire Viscometer with Nominal Wire Diameter of 0.15 mm:  Measurement of the Viscosity of Two Certified Reference Fluids, with Nominal Viscosities at T = 298 K and p = 0.1 MPa of (16 and 29) mPa·s, at Temperatures between (298 and 353) K and Pressures below 55 MPa</title><title>Journal of chemical and engineering data</title><addtitle>J. Chem. Eng. Data</addtitle><description>We have measured the viscosity of certified reference materials N10 and S20 with nominal viscosities at T = 298 K and p = 0.1 MPa of (16 and 29) mPa·s, respectively, at temperatures in the range (298 to 353) K and pressures between (0.1 and 55) MPa with a vibrating wire viscometer. This viscometer had a nominal wire diameter of 0.15 mm and provided viscosities with an estimated expanded (k = 2) uncertainty of ±2 % over the viscosity range (3 to 70) mPa·s. The latter value represents about half the upper operating viscosity of this vibrating wire that is about 150 mPa·s. The measured viscosity was compared with values predicted by interpolation expressions for N10 and S20 that represents the measured viscosities of different lots of the same fluids to within ±2 %. The results reported here have an average absolute deviation from those interpolation equations of about 2.4 % for N10 and 2.7 % for S20. 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Data</addtitle><date>2005-09-08</date><risdate>2005</risdate><volume>50</volume><issue>5</issue><spage>1732</spage><epage>1735</epage><pages>1732-1735</pages><issn>0021-9568</issn><eissn>1520-5134</eissn><abstract>We have measured the viscosity of certified reference materials N10 and S20 with nominal viscosities at T = 298 K and p = 0.1 MPa of (16 and 29) mPa·s, respectively, at temperatures in the range (298 to 353) K and pressures between (0.1 and 55) MPa with a vibrating wire viscometer. This viscometer had a nominal wire diameter of 0.15 mm and provided viscosities with an estimated expanded (k = 2) uncertainty of ±2 % over the viscosity range (3 to 70) mPa·s. The latter value represents about half the upper operating viscosity of this vibrating wire that is about 150 mPa·s. The measured viscosity was compared with values predicted by interpolation expressions for N10 and S20 that represents the measured viscosities of different lots of the same fluids to within ±2 %. The results reported here have an average absolute deviation from those interpolation equations of about 2.4 % for N10 and 2.7 % for S20. These differences are within the combined estimated uncertainties of the measurements.</abstract><pub>American Chemical Society</pub><doi>10.1021/je050185v</doi><tpages>4</tpages></addata></record>
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title Vibrating Wire Viscometer with Nominal Wire Diameter of 0.15 mm:  Measurement of the Viscosity of Two Certified Reference Fluids, with Nominal Viscosities at T = 298 K and p = 0.1 MPa of (16 and 29) mPa·s, at Temperatures between (298 and 353) K and Pressures below 55 MPa
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