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Mercury Porosimetry Aperture

Mercury Porosimetry Aperture, Total:68 items.

In the international standard classification, Mercury Porosimetry Aperture involves: Particle size analysis. Sieving, Extraction and processing of petroleum and natural gas, Analytical chemistry, Photography, Ceramics, Products of the textile industry, Special measuring equipment for use in telecommunications, Refractories, Fluid power systems, Protection against fire, Fibre optic communications, Installations in buildings, Earthworks. Excavations. Foundation construction. Underground works, Nuclear energy engineering.

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, Mercury Porosimetry Aperture

GB/T 21650.1-2008 Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption.Part 1: Mercury porosimetry
GB/T 21650.3-2011 Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption.Part 3:Analysis of micropores by gas adsorption
GB/T 21650.2-2008 Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption.Part 2: Analysis of mesopores and macropores by gas adsorption
GB/T 1967-1996 Test method for pore diameter of porous ceramic
GB/T 14799-1993 Measuring method of geotextile pore size
GB/T 42269-2022 Determination of pore size for membranes—Gas permeation method
GB/T 6626.4-1986 Test methods for the characteristics of getter-mercury dispenser--Method for peel off test of getter-mercury dispenser

International Organization for Standardization (ISO), Mercury Porosimetry Aperture

ISO 15901-1:2005 Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption - Part 1: Mercury porosimetry
ISO 15901-1:2016 Evaluation of pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption - Part 1: Mercury porosimetry
ISO 15901-2:2006 Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption - Part 2: Analysis of mesopores and macropores by gas adsorption
ISO 15901-2:2022 Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption — Part 2: Analysis of nanopores by gas adsorption
ISO 13319-1:2021 Determination of particle size distribution - Electrical sensing zone method - Part 1: Aperture/orifice tube method
ISO 9279:1992 Uranium dioxide pellets; determination of density and total porosity; mercury displacement method

Professional Standard - Energy, Mercury Porosimetry Aperture

NB/T 14008-2021 Determination of Shale Total Pore Size Distribution by Mercury Injection-Adsorption Combined Method

国家能源局, Mercury Porosimetry Aperture

NB/T 14008-2015 Determination of full pore size distribution of shale combined mercury injection-adsorption method

American Society for Testing and Materials (ASTM), Mercury Porosimetry Aperture

ASTM UOP578-02 Automated Pore Volume and Pore Size Distribution of Porous Substances by Mercury Porosimetry
ASTM UOP578-11 Automated Pore Volume and Pore Size Distribution of Porous Substances by Mercury Porosimetry
ASTM D4284-07 Standard Test Method for Determining Pore Volume Distribution of Catalysts by Mercury Intrusion Porosimetry
ASTM D4284-03 Standard Test Method for Determining Pore Volume Distribution of Catalysts by Mercury Intrusion Porosimetry
ASTM UOP578-84 Automated Pore Size Distribution of Porous Substances by Mercury Porosimetry
ASTM D4284-12 Standard Test Method for Determining Pore Volume Distribution of Catalysts and Catalyst Carriers by Mercury Intrusion Porosimetry
ASTM D4404-18 Standard Test Method for Determination of Pore Volume and Pore Volume Distribution of Soil and Rock by Mercury Intrusion Porosimetry
ASTM D4404-10 Standard Test Method for Determination of Pore Volume and Pore Volume Distribution of Soil and Rock by Mercury Intrusion Porosimetry

German Institute for Standardization, Mercury Porosimetry Aperture

DIN ISO 15901-1:2019 Evaluation of pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption - Part 1: Mercury porosimetry (ISO 15901-1:2016)

British Standards Institution (BSI), Mercury Porosimetry Aperture

BS ISO 15901-2:2022 Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption - Analysis of nanopores by gas adsorption
BS ISO 15901-1:2016 Tracked Changes. Evaluation of pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption. Mercury porosimetry
BS 3321:1986 Method for measurement of the equivalent pore size of fabrics (bubble pressure test)
BS ISO 13319-1:2021 Determination of particle size distribution. Electrical sensing zone method. Aperture/orifice tube method
BS ISO 7181:1997 Hydraulic fluid power. Cylinders. Bore and rod area ratios
BS ISO 15901-2:2006(2007) Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption - Analysis of mesopores and macropores by gas adsorption
BS ISO 15901-2:2007 Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption - Analysis of mesopores and macropores by gas adsorption

Association Francaise de Normalisation, Mercury Porosimetry Aperture

NF E81-061:1991 Punching and stamping. Aperture and pitch of perforated materiel with round holes and square holes.

Professional Standard - Machinery, Mercury Porosimetry Aperture

JB/T 8248.2-1999 Method for measurement for effective aperture and relative aperture of camera lenses

National Metrological Technical Specifications of the People's Republic of China, Mercury Porosimetry Aperture

JJF(航空) 011-1983 General method for mercury-free pressure gauges
JJF(航空) 006-1983 Calibration method of mercury-free pressure gauge

Korean Agency for Technology and Standards (KATS), Mercury Porosimetry Aperture

KS B 5409-2013 Photographic lenses ? Methods for the measurement of the effective aperture, F-number and relative aperture
KS B 5409-1998 Photographic lenses-Methods for the measurement of the effective aperture, F-number and relative aperture
KS B 5409-1982 Photographic lenses ? Methods for the measurement of the effective aperture, F-number and relative aperture
KS B 5409-2013(2018) Photographic lenses?Methods for the measurement of the effective aperture, F-number and relative aperture
KS B 6345-1986 Vane Motors for Oil Hydraulic Use
KS K 0754-2007 Test method for apparent opening size of geotextile-Dry method
KS K 0754-2015 Standard test method for determining apparent opening size of a geotextile
KS A ISO 9279:2012 Uranium dioxide pellets－Determination of density and total porosity－Mercury displacement method
KS A ISO 9279-2012(2022) Uranium dioxide pellets－Determination of density and total porosity－Mercury displacement method
KS A ISO 9279-2012(2017) Uranium dioxide pellets－Determination of density and total porosity－Mercury displacement method

未注明发布机构, Mercury Porosimetry Aperture

BS 3321:1986(1999) Method for Measurement of the equivalent pore size of fabrics (bubble pressure test)
BS 7591-1:1992(1999) Porosity and pore size distribution of materials — Part 1 : Method of evaluation by mercury porosimetry

American National Standards Institute （ANSI), Mercury Porosimetry Aperture

ANSI/EIA/TIA 455-167A:1992 Mode Field Diameter Measurement - Variable Aperture Method in the Farfield

国家市场监督管理总局、中国国家标准化管理委员会, Mercury Porosimetry Aperture

GB/T 38949-2020 Determination of pore size for porous membranes—Standard particle method

KR-KS, Mercury Porosimetry Aperture

KS B 5409-2023 Methods for the measurement of the effective aperture, F-number and relative aperture of photographic lenses

Japanese Industrial Standards Committee (JISC), Mercury Porosimetry Aperture

JIS B 7095:1997 Photographic lenses -- Methods for the measurement of the effective aperture, F-number and relative aperture
JIS R 1671:2006 Testing method for water permeability and hydraulic equivalent diameter of porous fine ceramics

Professional Standard - Ferrous Metallurgy, Mercury Porosimetry Aperture

YB/T 118-1997 Test method for pore size distribution of refractory

工业和信息化部, Mercury Porosimetry Aperture

YB/T 118-2020 Test method for pore size distribution of refractory materials

Taiwan Provincial Standard of the People's Republic of China, Mercury Porosimetry Aperture

CNS 7475-1981 Methods of Measurement for Effective Aperture, F - number, Aperture Ratio and T-number of Photographlc Lenses
CNS 4682-1978 Method of Test for Bulk Density and Porosity of Granular Refractory Materials by Mercury Displacement
CNS 14262-1998 Method of test for determining apparent opening size of a geotextile

IN-BIS, Mercury Porosimetry Aperture

Indonesia Standards, Mercury Porosimetry Aperture

SNI 08-4418-1997 Test method for pore size of geotextile

Universal Oil Products Company (UOP), Mercury Porosimetry Aperture

UOP 578-2011 Automated Pore Volume and Pore Size Distribution of Porous Substances by Mercury Porosimetry

Professional Standard - Electron, Mercury Porosimetry Aperture

SJ 2667-1986 Methods of measurement of numerical aperture of optical fibres and cables

American Society of Mechanical Engineers (ASME), Mercury Porosimetry Aperture

ASME MFC-14M-2003 Measurement of Fluid Flow Using Small Bore Precision Orifice Meters

Standard Association of Australia （SAA）, Mercury Porosimetry Aperture

AS 1257:1973/Amdt 1:1979

IT-UNI, Mercury Porosimetry Aperture

UNI 6822-1971

CH-SNV, Mercury Porosimetry Aperture

SN EN 54 Teil 9-1984 Components of automatic fire detection SystemsPart 9: Fire sensitivity festOrganes constitutifs des systemes de detection automatique d'incendiePartie 9: Essais de sensibilite sur foyers types

Military Standard of the People's Republic of China-General Armament Department, Mercury Porosimetry Aperture

GJB 9353-2018 External calibration method for spaceborne synthetic aperture radar
GJB 9352-2018 Internal calibration method of spaceborne synthetic aperture radar