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How to use liquid

How to use liquid, Total:85 items.

In the international standard classification, How to use liquid involves: Water quality, Radiation measurements, Measurement of fluid flow, Analytical chemistry, Paints and varnishes, Aerospace electric equipment and systems, Construction materials.

SAE - SAE International, How to use liquid

• SAE ARP4737D-1999 Aircraft Deicing/Anti-Icing Methods with Fluids
• SAE ARP4737B-1997 Aircraft Deicing/Anti-Icing Methods with Fluids
• SAE ARP4737C-1999 Aircraft Deicing/Anti-Icing Methods with Fluids

International Organization for Standardization (ISO), How to use liquid

• ISO 9698:2019 Water quality — Tritium — Test method using liquid scintillation counting
• ISO 22515:2021 Water quality - Iron-55 - Test method using liquid scintillation counting
• ISO 13169:2018 Water quality - Uranium - Test method using alpha liquid scintillation counting
• ISO 13163:2013 Water quality — Lead-210 — Test method using liquid scintillation counting
• ISO 13165-1:2013 Water quality - Radium-226 - Part 1: Test method using liquid scintillation counting
• ISO 22125-1:2019 Water quality — Technetium-99 — Part 1: Test method using liquid scintillation counting
• ISO 19361:2017 Measurement of radioactivity — Determination of beta emitters activities — Test method using liquid scintillation counting
• ISO 23655-1:2022 Water quality — Nickel-59 and nickel-63 — Part 1: Test method using liquid scintillation counting
• ISO 11704:2018 Water quality — Gross alpha and gross beta activity — Test method using liquid scintillation counting
• ISO 11348-2:2007/Amd 1:2018 Water quality — Determination of the inhibitory effect of water samples on the light emission of Vibrio fischeri (Luminescent bacteria test) — Part 2: Method using liquid-dried bacteria — Amendment 1

German Institute for Standardization, How to use liquid

• DIN EN ISO 9698:2017-04 Water quality - Tritium - Test method using liquid scintillation counting (ISO/DIS 9698:2017); German and English version prEN ISO 9698:2017 / Note: Date of issue 2017-03-24*Intended as replacement for DIN EN ISO 9698 (2015-12).
• DIN EN ISO 13163:2020-09 Water quality - Lead-210 - Test method using liquid scintillation counting (ISO 13163:2013); German version EN ISO 13163:2019 / Note: To be replaced by DIN EN ISO 13163 (in preparation).
• DIN EN ISO 9698:2017 Water quality - Tritium - Test method using liquid scintillation counting (ISO/DIS 9698:2017); German and English version prEN ISO 9698:2017
• DIN EN ISO 13163:2020 Water quality - Lead-210 - Test method using liquid scintillation counting (ISO 13163:2013)
• DIN EN ISO 13162:2022-03 Water quality - Carbon 14 - Test method using liquid scintillation counting (ISO 13162:2021); German version EN ISO 13162:2021
• DIN EN ISO 22515:2023-07 Water quality - Iron-55 - Test method using liquid scintillation counting (ISO 22515:2021); German version EN ISO 22515:2021
• DIN EN ISO 22908:2022-11 Water quality - Radium 226 and Radium 228 - Test method using liquid scintillation counting (ISO 22908:2020); German version EN ISO 22908:2020
• DIN EN ISO 13165-1:2020-12 Water quality - Radium-226 - Part 1: Test method using liquid scintillation counting (ISO 13165-1:2013); German version EN ISO 13165-1:2020
• DIN EN ISO 22125-1:2019-09 Water quality - Technetium-99 - Part 1: Test method using liquid scintillation counting (ISO/FDIS 22125-1:2019); German and English version FprEN ISO 22125-1:2019 / Note: Date of issue 2019-08-23
• DIN EN ISO 11704:2017-10 Water quality - Gross alpha and gross beta activity - Test method using liquid scintillation counting (ISO/DIS 11704:2017); German and English version prEN ISO 11704:2017 / Note: Date of issue 2017-09-01*Intended as replacement for DIN EN ISO 11704 (20...
• DIN EN ISO 22908:2019 Water quality - Radium 226 and Radium 228 - Test method using liquid scintillation counting (ISO/FDIS 22908:2019); German and English version FprEN ISO 22908:2019
• DIN ISO 13165-1:2015 Water quality - Radium-226 - Part 1: Test method using liquid scintillation counting (ISO 13165-1:2013)
• DIN EN ISO 11704:2017 Water quality - Gross alpha and gross beta activity - Test method using liquid scintillation counting (ISO/DIS 11704:2017); German and English version prEN ISO 11704:2017
• DIN EN ISO 22125-1:2019 Water quality - Technetium-99 - Part 1: Test method using liquid scintillation counting (ISO/FDIS 22125-1:2019); German and English version FprEN ISO 22125-1:2019
• DIN EN ISO 13165-1:2020 Water quality - Radium-226 - Part 1: Test method using liquid scintillation counting (ISO 13165-1:2013); German version EN ISO 13165-1:2020

ES-UNE, How to use liquid

• UNE-EN ISO 9698:2019 Water quality - Tritium - Test method using liquid scintillation counting (ISO 9698:2019) (Endorsed by Asociación Española de Normalización in July of 2019.)
• UNE-EN ISO 22515:2021 Water quality - Iron-55 - Test method using liquid scintillation counting (ISO 22515:2021) (Endorsed by Asociación Española de Normalización in July of 2021.)
• UNE-EN ISO 13163:2022 Water quality - Lead-210 - Test method using liquid scintillation counting (ISO 13163:2021) (Endorsed by Asociación Española de Normalización in April of 2022.)
• UNE-EN ISO 13162:2021 Water quality - Carbon 14 - Test method using liquid scintillation counting (ISO 13162:2021) (Endorsed by Asociación Española de Normalización in July of 2021.)
• UNE-EN ISO 22908:2020 Water quality - Radium 226 and Radium 228 - Test method using liquid scintillation counting (ISO 22908:2020) (Endorsed by Asociación Española de Normalización in March of 2020.)
• UNE-EN ISO 13165-1:2020 Water quality - Radium-226 - Part 1: Test method using liquid scintillation counting (ISO 13165-1:2013) (Endorsed by Asociación Española de Normalización in March of 2020.)
• UNE-EN ISO 22125-1:2019 Water quality - Technetium-99 - Part 1: Test method using liquid scintillation counting (ISO 22125-1:2019) (Endorsed by Asociación Española de Normalización in January of 2020.)
• UNE-EN ISO 11704:2018 Water quality - Gross alpha and gross beta activity - Test method using liquid scintillation counting (ISO 11704:2018) (Endorsed by Asociación Española de Normalización in February of 2019.)
• UNE-EN ISO 19361:2020 Measurement of radioactivity - Determination of beta emitters activities - Test method using liquid scintillation counting (ISO 19361:2017) (Endorsed by Asociación Española de Normalización in April of 2020.)
• UNE-EN ISO 11348-2:2009/A1:2019 Water quality - Determination of the inhibitory effect of water samples on the light emission of Vibrio fischeri (Luminescent bacteria test) - Part 2: Method using liquid-dried bacteria - Amendment 1 (ISO 11348-2:2007/Amd 1:2018)

European Committee for Standardization (CEN), How to use liquid

• EN ISO 22515:2021 Water quality - Iron-55 - Test method using liquid scintillation counting (ISO 22515:2021)
• prEN ISO 13163:2021 Water quality - Lead-210 - Test method using liquid scintillation counting (ISO 13163:2021)
• EN ISO 22125-1:2019 Water quality - Technetium-99 - Part 1: Test method using liquid scintillation counting (ISO 22125-1:2019)
• EN ISO 19361:2020 Measurement of radioactivity - Determination of beta emitters activities - Test method using liquid scintillation counting (ISO 19361:2017)

Association Francaise de Normalisation, How to use liquid

• NF M60-826*NF EN ISO 13162:2021 Water quality - Carbon 14 - Test method using liquid scintillation counting
• NF M60-837*NF EN ISO 22515:2021 Water quality - Iron-55 - Test method using liquid scintillation counting
• NF M60-809*NF EN ISO 13163:2022 Water quality - Lead-210 - Test method using liquid scintillation counting
• NF M60-832*NF ISO 13169:2019 Water quality - Uranium - Test method using alpha liquid scintillation counting
• NF M60-811-1:2013 Water quality - Radium 226 - Part 1: test method using liquid scintillation counting
• NF M60-820*NF EN ISO 11704:2018 Water quality - Gross alpha and gross beta activity - Test method using liquid scintillation counting
• NF B35-511:1983 Laboratory glassware. Density hydrometers for general purpose. Specifications. Test methods and use.

British Standards Institution (BSI), How to use liquid

• BS ISO 13165-1:2013 Water quality. Radium-226. Test method using liquid scintillation counting
• BS EN ISO 13163:2022 Water quality — Lead-210 — Test method using liquid scintillation counting
• BS EN ISO 22125-1:2019 Water quality. Technetium-99 - Test method using liquid scintillation counting
• BS EN ISO 13165-1:2020 Water quality. Radium-226. Test method using liquid scintillation counting
• BS EN ISO 22515:2021 Water quality. Iron-55. Test method using liquid scintillation counting
• BS ISO 13169:2018 Water quality. Uranium. Test method using alpha liquid scintillation counting
• BS EN ISO 22908:2020 Water quality. Radium 226 and Radium 228. Test method using liquid scintillation counting
• BS ISO 23655-1:2022 Water quality. Nickel-59 and nickel-63 - Test method using liquid scintillation counting
• BS EN ISO 9698:2019 Tracked Changes. Water quality. Tritium. Test method using liquid scintillation counting
• BS EN ISO 13162:2021 Tracked Changes. Water quality. Carbon 14. Test method using liquid scintillation counting
• 20/30406511 DC BS EN ISO 13163. Water quality. Lead-210. Test method using liquid scintillation counting
• 20/30392379 DC BS EN ISO 13162. Water quality. Carbon 14. Test method using liquid scintillation counting
• 19/30368540 DC BS EN ISO 22515. Water quality. Iron-55. Test method using liquid scintillation counting
• BS 3680-2D:1993 Measurement of liquid flow in open channels. Dilution methods. Methods of measurement using fluorescent tracers
• BS 3680-2C:1993 Measurement of liquid flow in open channels. Dilution methods. Methods of measurement using chemical tracers
• 18/30377315 DC BS EN ISO 22908. Water quality. Radium 226 and radium 228. Test method using liquid scintillation counting
• BS EN ISO 19361:2020 Measurement of radioactivity. Determination of beta emitters activities. Test method using liquid scintillation counting
• 20/30397856 DC BS ISO 13165-1. Water quality. Radium-226 - Part 1. Test method using liquid scintillation counting
• BS EN ISO 2812-3:2019 Tracked Changes. Paints and varnishes. Determination of resistance to liquids. Method using an absorbent medium
• BS EN 3475-411:2018 Tracked Changes. Aerospace series. Cables, electrical, aircraft use. Test methods. Resistance to fluids
• 18/30368526 DC BS EN ISO 22125-1. Water quality. Technetium-99. Part 1. Test method using liquid scintillation counting
• BS EN ISO 11704:2018 Tracked Changes. Water quality. Gross alpha and gross beta activity. Test method using liquid scintillation counting
• 22/30429616 DC BS EN ISO 13168. Water quality. Simultaneous determination of tritium and carbon 14 activities. Test method using liquid scintillation counting
• BS EN ISO 11348-2:2008+A1:2018 Water quality. Determination of the inhibitory effect of water samples on the light emission of Vibrio fischeri (Luminescent bacteria test) - Method using liquid-dried bacteria

IT-UNI, How to use liquid

• UNI EN ISO 22515:2021 Water quality - Iron-55 - Test method using liquid scintillation counting
• UNI EN ISO 13162:2021 Water quality - Carbon 14 - Test method using liquid scintillation counting

CH-SNV, How to use liquid

• SN EN ISO 22515:2021 Water quality - Iron-55 - Test method using liquid scintillation counting (ISO 22515:2021)
• SN EN ISO 13162:2021 Water quality - Carbon 14 - Test method using liquid scintillation counting (ISO 13162:2021)

Lithuanian Standards Office , How to use liquid

• LST EN ISO 22515:2021 Water quality - Iron-55 - Test method using liquid scintillation counting (ISO 22515:2021)
• LST EN ISO 13162:2021 Water quality - Carbon 14 - Test method using liquid scintillation counting (ISO 13162:2021)
• LST EN ISO 11348-2:2009 Water quality - Determination of the inhibitory effect of water samples on the light emission of Vibrio fischeri (Luminescent bacteria test) - Part 2: Method using liquid-dried bacteria (ISO 11348-2:2007)

Danish Standards Foundation, How to use liquid

• DS/EN ISO 13162:2021 Water quality – Carbon 14 – Test method using liquid scintillation counting (ISO 13162:2021)
• DS/EN ISO 11348-2:2009 Water quality - Determination of the inhibitory effect of water samples on the light emission of Vibrio fischeri (Luminescent bacteria test) - Part 2: Method using liquid-dried bacteria

American Society for Testing and Materials (ASTM), How to use liquid

• ASTM C1306-05 Standard Test Method for Hydrostatic Pressure Resistance of a Liquid-Applied Waterproofing Membrane
• ASTM C1306-05a Standard Test Method for Hydrostatic Pressure Resistance of a Liquid-Applied Waterproofing Membrane

AENOR, How to use liquid

• UNE-EN ISO 11348-2:2009 Water quality - Determination of the inhibitory effect of water samples on the light emission of Vibrio fischeri (Luminescent bacteria test) - Part 2: Method using liquid-dried bacteria (ISO 11348-2:2007)

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