BH GSO OIML D26:2022
Bahraini Standard
Current Edition
·
Approved on
28 April 2022
·
Glass delivery measures - Automatic pipettes
BH GSO OIML D26:2022 Files
English
10 Pages
Current Edition
Reference Language
BH GSO OIML D26:2022 Scope
This International Document relates to automatic
pipettes which are generally used as national primary
standards of volume. It gives advice on the manufacture and installation of such standards together
with their calibration, use and maintenance.
Automatic pipettes are used by national laboratories,
services of legal metrology and regional laboratory
metrological offices for the calibration of volumetric
standards of a lower order and for the verification of
volumetric instruments - including volumetric glassware (flasks etc.), a field which is covered by various
OIML International Recommendations and ISO Standards (see clause 13 for references to International
Standards and Recommendations relating to laboratory glassware).
Best Sellers From Metrology Sector
GSO OIML R87:2021
OIML R87:2016
Gulf Standard
Quantity of product in prepackages
BH GSO OIML R87:2022
GSO OIML R87:2021
Bahraini Standard
Quantity of product in prepackages
GSO OIML R79:2021
OIML R79:2015
Gulf Standard
Labeling requirements for prepackages
BH GSO OIML R79:2022
GSO OIML R79:2021
Bahraini Standard
Labeling requirements for prepackages
Recently Published from Metrology Sector
GSO ISO/TR 17534-4:2024
ISO/TR 17534-4:2020
Gulf Standard
Acoustics — Software for the calculation of sound outdoors — Part 4: Recommendations for a quality assured implementation of the COMMISSION DIRECTIVE (EU) 2015/996 in software according to ISO 17534-1
GSO ISO 12999-1:2024
ISO 12999-1:2020
Gulf Standard
Acoustics — Determination and application of measurement uncertainties in building acoustics — Part 1: Sound insulation
GSO IEC 62586-1:2024
IEC 62586-1:2017
Gulf Standard
Power quality measurement in power supply systems - Part 1: Power quality instruments (PQI)
GSO ISO 748:2024
ISO 748:2021
Gulf Standard
Hydrometry — Measurement of liquid flow in open channels — Velocity area methods using point velocity measurements