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Low infrared absorption peak

Low infrared absorption peak, Total:467 items.

In the international standard classification, Low infrared absorption peak involves: Ferrous metals, Optical equipment, Glass, Graphic technology, Semiconducting materials, Ferroalloys, Testing of metals, Iron and steel products, Fibre optic communications, Analytical chemistry, Geology. Meteorology. Hydrology, Water quality, Products of the chemical industry, Insulating fluids, Materials for the reinforcement of composites, Non-ferrous metals, Metalliferous minerals, Raw materials for rubber and plastics, Products of the textile industry, Protection against crime, Non-metalliferous minerals, Nuclear energy engineering, Vocabularies, Air quality, Environmental protection, Powder metallurgy, Physics. Chemistry, Plastics, Construction materials, Pipeline components and pipelines, Photography, Ceramics, Fuels, Lubricants, industrial oils and related products.

Korean Agency for Technology and Standards (KATS), Low infrared absorption peak

• KS D ISO 15349-1-2005(2015) Unalloyed steel－Determination of low carbon content－Part 1：Infrared absorption method after combustion in an electric resistance furnace(by peak separation)
• KS L 2013-1978(1996) ABSORBENT GLASS OF INFRARED RAY FOR OPTICS
• KS L 2013-2001 ABSORBENT GLASS OF INFRARED RAY FOR OPTICS
• KS D ISO 15349-2:2003 Unalloyed steel－Determination of low carbon content－Part 2：Infrared absorption method after combustion in an induction furnace (with preheating)
• KS D ISO 15349-3-2005(2015) Unalloyed steel－Determination of low carbon content－Part 3：Infrared absorption method after combustion in an electric resistance furnace(with preheating)
• KS D ISO 15349-2-2003(2018) Unalloyed steel－Determination of low carbon content－Part 2：Infrared absorption method after combustion in an induction furnace (with preheating)
• KS D ISO 4935:2002 Steel and iron－Determination of total sulphur content－Infrared absorption method after combustion in an induction furnace
• KS D ISO 4935-2002(2022) Steel and iron－Determination of total sulphur content－Infrared absorption method after combustion in an induction furnace
• KS D ISO 4935-2002(2017) Steel and iron－Determination of total sulphur content－Infrared absorption method after combustion in an induction furnace
• KS D ISO 15349-3:2005 Unalloyed steel－Determination of low carbon content－Part 3：Infrared absorption method after combustion in an electric resistance furnace(with preheating)
• KS D ISO 15349-1:2005 Unalloyed steel－Determination of low carbon content－Part 1：Infrared absorption method after combustion in an electric resistance furnace(by peak separation)
• KS D ISO 9556:2001 Steel and iron-Determination of total carbon content-Infrared absorption method after combustion in an induction furnace
• KS D ISO 9556:2021 Steel and iron — Determination of total carbon content — Infrared absorption method after combustion in an induction furnace
• KS D ISO 9556-2001(2016) Steel and iron-Determination of total carbon content-Infrared absorption method after combustion in an induction furnace
• KS D ISO 13902:2002 Steel and iron－Determination of high sulfur content－Infrared absorption method after combustion in an induction furnace
• KS D ISO 10719-2006(2016) Steel and iron－Determination of non-combined carbon content－Infrared absorption method after combustion in an induction furnace
• KS D ISO 10719:2006 Steel and iron－Determination of non-combined carbon content－Infrared absorption method after combustion in an induction furnace
• KS D ISO 10719:2021 Cast irons — Determination of non-combined carbon content —Infrared absorption method after combustion in an induction furnace
• KS D 2717-2008(2018) Evaluation of metallic/semiconducting ratio of single-walled carbon nanotube soots using UV-VIS－NIR absorption spectroscopy
• KS D ISO 22963:2010 Titanium and titanium alloys－Determination of oxygen－Infrared method after fusion under inert gas
• KS D ISO 15350-2003(2018) Steel and iron－Determination of total carbone and sulfur content－Infrared absorption method after combustion in an induction furnace(routine method)
• KS D ISO 7524:2012 Nickel, ferronickel and nickel alloys-Determination of carbon content-Infra-red absorption method after induction furnace combustion
• KS D ISO 7526:2012 Nickel, ferronickel and nickel alloys-Determination of sulfur content-Infra-red absorption method after induction furnace combustion
• KS D ISO 13902-2002(2017) Metallic and other non-organic coatings－Measurement of coating thicknesses－Fizeau multiple-beam interferometry method
• KS D ISO 7526-2012(2017) Nickel, ferronickel and nickel alloys－Determination of sulfur content－Infra-red absorption method after induction furnace combustion
• KS D ISO 7524-2012(2017) Nickel, ferronickel and nickel alloys－Determination of carbon content－Infra-red absorption method after induction furnace combustion
• KS D ISO 15350:2003 Steel and iron－Determination of total carbone and sulfur content－Infrared absorption method after combustion in an induction furnace(routine method)
• KS A ISO 9889-2012(2022) Determination of carbon content in uranium dioxide powder and sintered pellets－Resistance furnace combustion－Titrimetric/coulometric/infrared absorbtion method
• KS A ISO 9889-2012(2017) Determination of carbon content in uranium dioxide powder and sintered pellets－Resistance furnace combustion－Titrimetric/coulometric/infrared absorbtion method
• KS A ISO 9891-2012(2017) Determination of carbon content in uranium dioxide powder and sintered pellets－High-frequency induction furnace combustion－Titrimetric/coulometric/infrared absorption methods
• KS A ISO 9891-2012(2022) Determination of carbon content in uranium dioxide powder and sintered pellets－High-frequency induction furnace combustion－Titrimetric/coulometric/infrared absorption methods

Japanese Industrial Standards Committee (JISC), Low infrared absorption peak

• JIS R 3207:1959 Optical infrared ray absorbing glass
• JIS G 1211-4 AMD 1:2013 Iron and steel.Determination of carbon content.Part 4: Infrared absorption method after combustion in a furnace with preheating or peak separating (Amendment 1)
• JIS G 1211-4 AMD 2:2017 Iron and steel -- Determination of carbon content -- Part 4: Infrared absorption method after combustion in a furnace with preheating or peak separating (Amendment 2)
• JIS G 1211-4:2011 Iron and steel -- Determination of carbon content -- Part 4: Infrared absorption method after combustion in a furnace with preheating or peak separating
• JIS G 1211-3:2018 Iron and steel -- Determination of carbon -- Part 3: Infrared absorption method after combustion
• JIS G 1211-3:2011 Iron and steel -- Determination of carbon content -- Part 3: Infrared absorption method after combustion
• JIS G 1215-4:2018 Iron and steel -- Determination of sulfur -- Part 4: Infrared absorption method after combustion in an induction furnace
• JIS G 1211-3 AMD 1:2013 Iron and steel.Determination of carbon content.Part 3: Infrared absorption method after combustion (Amendment 1)
• JIS G 1239:2014 Iron and steel -- Determination of oxygen -- Infrared absorption method after fusion under inert gas
• JIS G 1211-3 AMD 2:2017 Iron and steel -- Determination of carbon content -- Part 3: Infrared absorption method after combustion (Amendment 2)
• JIS G 1215-4:2010 Iron and steel -- Determination of sulfur content -- Part 4: Infrared absorption method after combustion in an induction furnace
• JIS G 1215-4 AMD 2:2017 Iron and steel -- Determination of sulfur content -- Part 4: Infrared absorption method after combustion in an induction furnace (Amendment 2)
• JIS G 1215-4 AMD 1:2015 Iron and steel -- Determination of sulfur content -- Part 4: Infrared absorption method after combustion in an induction furnace (Amendment 1)

Taiwan Provincial Standard of the People's Republic of China, Low infrared absorption peak

• CNS 11511-1986 Optical Infrared Ray Absorbing Glass
• CNS 11512-1986 Method of Test for Optical Infrared Ray Absorbing Glass

Professional Standard - Chemical Industry, Low infrared absorption peak

• HG/T 4244-2011 Infrared cyanine dye for 830nm thermal CTP plates

Professional Standard - Electron, Low infrared absorption peak

• SJ/T 11496-2015 Determination of boron concentration in gallium arsenide by infrared absorption
• SJ/T 11491-2015 Test methods for measurement of interstitial oxygen content in silicon by short baseline infrared absorption spectrometry
• SJ 3249.3-1989 Methods of measurement for chromium concentration in semi-insulation Gallium arsenide by infra-red absorption
• SJ/T 10625-1995 Determination method for interstitial atomic oxygen content of germanium by infrared abaorption
• SJ 20744-1999 General rule of infrared absorption spectral analysis for the impurity concentration in semiconductor materials
• SJ 3249.2-1989 Methods of measurement for Carbon concentration of semi-insulation Gallicem arsenide single crystal by infra-red absorption
• SJ/T 11552-2015 Test methods for measurement of interstitial oxygen content of silicon wafers by infrared absorption with P-polarized radiation incident at the Brewster angle

Professional Standard - Ferrous Metallurgy, Low infrared absorption peak

• YB/T 5339-2015 Ferrophosphorus.Determination of carbon content.The infrared absorption method
• YB/T 5341-2015 Ferrophosphorus.Determination of sulfur content.The infrared absorption method
• YB/T 4311-2012 Molybdenum oxide.Determination of sulfur content.The infrared absorption method
• YB/T 4312-2012 Molybdenum oxide.Determination of carbon content.The infrared absorption method
• YB/T 109.6-2012 Silicon barium alloy.Determination of carbon content.The infrared absorption method
• YB/T 109.7-2012 Silicon barium alloy.Determination of sulfur content.The infrared absorption method
• YB/T 5333-2009 Determination of sulfur content in vanadium pentoxide by infrared absorption method
• YB/T 5339-2006 Ferrophosphorus Chemical Analysis Method Infrared Absorption Method Determination of Carbon Content
• YB/T 5341-2006 Ferrophosphorus Chemical Analysis Method Infrared Absorption Method Determination of Sulfur Content
• YB/T 191.7-2001 Methods for chemical analysis of chromium ores----The infrared absorption method for the determination of sulfur content
• YB/T 109.6-1997 Methods for chemical analysis of barium-silicon the infrared absorption method for the determination of carbon content
• YB/T 109.7-1997 Methods for chemical analysis of barium-silicon the infrared absorption method for the derermination of sulfur content
• YB/T 5316-2006 Calcium silicon alloy chemical analysis method Infrared absorption method for determination of carbon content
• YB/T 178.6-2008 Determination of carbon content in silicon-aluminum alloy and silicon-barium-aluminum alloy by infrared absorption method
• YB/T 178.7-2008 Determination of sulfur content in silicon-aluminum alloy and silicon-barium-aluminum alloy by infrared absorption method
• YB/T 4305-2012 Steel, iron and alloy.Determination of oxygen content.Infrared method after fusion under inert gas
• YB/T 190.7-2014 Continuous casting mold powder.The determination of total carbon content.The gas volumetric method after combustion and the infrared absorption method
• YB/T 178.6-2000 Methods for chemical analysis silicon-aluminium alloy and silicon-barium-aluminium alloy.The infrared absorption method for the determination of carbon content
• YB/T 190.6-2014 Continuous casting mold powder.The determination of dissociation carbon content.The gas volumetric method after combustion and the infrared absorption method
• YB/T 5317-2016 Calcium silicon alloy.Determination of sulfur content.High frequency combustion with infrared absorption method and the combustion-potassium iodate titration method
• YB/T 5317-2006 Calcium silicon alloy chemical analysis method infrared absorption method and combustion potassium iodate titration method for determination of sulfur content
• YB/T 190.7-2001 Methods for chemical analysis of continuous casting mold powder The gas-volumetric method after combustion and the infrared absorption method for the determination of carbon content
• YB/T 4419.1-2014 Metallized pellet by rotary hearth furnace.Determination of carbon and sulfur content.Infrared absorption method after combustion in an induction furnace
• YB/T 190.6-2001 Methods for chemical analysis of continuous casting mold powder The gas-volumetric method after combustion and the infrared absorption method for the determination of dissociation carbon content

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, Low infrared absorption peak

• GB/T 4701.8-2009 Ferrotitanium-Determination of carbon content-The infrared absorption method
• GB/T 3653.7-2020 Ferroboron—Determination of sulfur content—Infrared absorption method
• GB/T 5059.7-2014 Ferromolybdenum.The determination of carbon content.Infrared absorption method
• GB/T 24583.4-2009 Vanadium.Nitrogen alloy.Determination carbon of content.The infrared absorption method
• GB/T 24583.6-2009 Vanadium-Nitrogen alloy.Determination of sulfur content.The infrared absorption method
• GB/T 24583.7-2009 Vanadium-Nitrogen alloy.Determination of oxygen content.The infrared absorption method
• GB/T 1558-1997 Test method for substitutional atomic carbon content of silicon by infrared absorption
• GB/T 1558-2009 Test method for substitutional atomic carbon concent of silicon by infrared absorption
• GB/T 14143-1993 Infrared Absorption Measurement Method of Oxygen Content in the Gap of 300-900μm Silicon Wafer
• GB/T 8705.1-1988 Methods for chemical analysis of ferrophosphorus--The infrared absorption method for the determination of carbon content
• GB/T 8705.3-1988 Methods for chemical analysis of ferrophosphorus--The infrared absorption method for the determination of carbon content
• GB/T 1557-1989 The method of determining interstitial oxygen content in silicon by infrared absorption
• GB/T 5687.8-1988 Methods for chemical analysis of ferro-chromium--The infrared absorption method for the determination of sulfur content
• GB/T 4701.8-1988 Methods for chemical analysis of ferrotitanium--The infrared absorption method for the determination of carbon content
• GB/T 5059.9-1988 Methods for chemical analysis of ferromolybdenum--The infrared absorption method for the determination of sulfur content
• GB/T 1557-2006 The method of determining interstitial oxygen content in silicon by infrared absorption
• GB/T 4333.10-1990 Methods for chemical analysis of ferrosilicon--The infrared absorption method for the determination of carbon content
• GB/T 7731.10-1988 Methods for chemical analysis of ferrotungsten--The infrared absorption method for the determination of carbon content
• GB/T 4701.10-1988 Methods for chemical analysis of ferrotitanium--The infrared absorption method for the determination of sulfur content
• GB/T 5059.7-1988 Methods for chemical analysis of ferromolybdenum--The infrared absorption method for the determination of carbon content
• GB/T 5687.5-1988 Methods for chemical analysis of ferro-chromium--The infrared absorption method for the determination of carbon content
• GB/T 7731.12-1988 Methods for chemical analysis of ferrotungsten--The infrared absorption method for the determination of sulfur content
• GB/T 24369.1-2009 Characterization of gold nanorods.Part 1:UV-Vis-NIR absorption spectroscopy
• GB/T 8654.8-1988 Methods for chemical analysis of manganese metal--The infrared absorption method for the determination of carbon content
• GB/T 8654.10-1988 Methods for chemical analysis of manganese metal--The infrared absorption method for the determination of sulfur content
• GB/T 13193-1991 Water quality--Determination of TOC by nondispersive infrared absorption method
• GB/T 4702.14-1988 Methods for chemical analysis of chromium metal--The infrared absorption method for the determination of carbon content
• GB/T 4702.16-1988 Methods for chemical analysis of chromium metal--The infrared absorption method for the determination of sulfur content
• GB 13193-1991 Determination of total organic carbon (TOC) in water by non-dispersive infrared absorption method
• GB 4702.14-1988 Metal Chromium Chemical Analysis Method Infrared Absorption Method Determination of Carbon Content
• GB/T 4700.5-1998 Methods for chemical analysis of calcium-silicon The infrared absorption method for the determination of carbon content
• GB/T 5686.5-1988 Methods for chemical analysis of silicomanganese alloy--The infrared absorption method for the determination of carbon content
• GB/T 5686.7-1988 Methods for chemical analysis of silicomanganese alloy--The infrared absorption method for the determination of sulfur content
• GB/T 5059.9-2008 Ferromolybdenum.Determination of sulfur content.The infrared absorption method and the combustion-iodate volumetric method
• GB/T 8704.1-2009 Ferrovanadium-Determination of carbon content-The infrared absorption method and the gasometric method
• GB/T 6730.61-2005 Iron ores-Determination of carbon and sulfur content-High frequency combustion with infrared absorption method
• GB/T 6730.61-2022 Iron ores—Determination of carbon and sulfur content—High frequency combustion with infrared absorption method
• GB/T 4699.6-1988 Methods for chemical analysis of silicochromium--The infrared absorption method for the determination of sulfur content
• GB/T 4699.4-1988 Methods for chemical analysis of silicochromium The infrared absorption method for the determination of carbon content
• GB/T 20126-2006 Unalloyed Steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (With preheating)
• GB/T 19199-2015 Test methods for carbon acceptor concentration in semi-insulating gallium arsenide single crystals by infrared absorption spectroscopy
• GB/T 19199-2003 Test method for carbon concentration of semi-insulating monocrystal gallium arsenide by measurement infrared absorption method
• GB/T 32573-2016 Determination of total carbon content of silicon powder Infrared absorption method after combustion in induction furnace
• GB/T 32561.4-2022 Measuring methods for chalcogenide infrared optical glass—Part 4: Coefficient of optical absorption
• GB/T 30740-2014 Determination of total organic carbon in marine sediment.Nondispersive infrared absorption
• GB/T 26196-2010 Fireworks and firecrackers.Determination of carbon content in pyrotechnic compositions.High frequency-infrared absorption method
• GB/T 6150.4-2008 Methods for chemical analysis of tungsten concentrates.Determination of sulfur content .The high frequency-infrared absorption method
• GB/T 30741-2014 Determination of total sulfur in ocean atmospheric dry deposition.Nondispersive infrared absorption spectrometry
• GB/T 30742-2014 Determination of total carbon in ocean atmospheric dry deposition.Nondispersive infrared absorption spectrometry
• GB/T 11261-2006 Steel and lron - Determination of oxygen content - The pulse heating inert gas fusion-infra-red absorption method
• GB/T 4701.10-2008 Ferrotitanium. Determination of sulfur content. Infrared absorption method and combustion-neutralization titration method
• GB/T 7731.12-2008 Ferrotungsten. Determination of sulfur content. Infrared absorption method and combustion titration method
• GB/T 8704.3-2009 Ferrovanadium.Determination of sulfur content.The infrared absorption method and the combustion-neutralization titration method
• GB/T 42275-2022 Hardmetals—Determination of total carbon content—High frequency combustion infrared absorption or thermal conductivity method
• GB/T 21931.1-2008 Nickel,ferronickel and nickel alloys.Determination of carbon content.Infrared absorption method afer induction furnace combustion
• GB/T 21931.2-2008 Nickel,ferronickel and nickel alloys.Determination of sulfur content.Infrared absorption method after induction furnace combustion
• GB/T 223.85-2009 Steel and iron.Determination of sulfur content.Infrared absorption method after combustion in an induction furnace
• GB/T 29652-2013 Direct reduced iron.Determination of carbon and sulfur.High frequency combustion with infrared absorption method
• GB/T 17170-2015 Test method for the EL2 deep donor concentration in semi-insulating gallium arsenide single crystals by infrared absorption spectroscopy
• GB/T 4702.16-2008 Chromium metal. Determination of sulfur content. Infrared absorption method and combustion-neutralization titration method
• GB/T 4699.4-2008 Ferrochromium and silicochromium. Determination of carbon content. Infrared absorption method and gravimetric method
• GB/T 8647.9-1988 Nickel--Determination of sulphur content--Infra-red absorption method after high frequency induction furnace combustion
• GB/T 223.83-2009 Steel and iron.Determination of high sulfur content.Infrared absorption method after combustion in an induction furnace
• GB/T 223.86-2009 Steel and iron.Determination of total carbon content.Infrared absorption method after combustion in an induction furnace
• GB/T 8647.10-1988 Nickel--Determination of carbon content--Infra-red absorption method after high frequency induction furnace combustion
• GB/T 14849.6-2014 Methods for chemical analysis of silicon metal.Part 6:Determination of carbon.Infrared absorption method
• GB/T 8704.1-1997 Methods for chemical analysis of ferrovandium. The infrared absorption method and the gasometric method for the determination of carbon content
• GB/T 7730.8-2000 Methods for chemical analysis of ferromanganese and blast furnace ferromanganese The infrared absorption method for the determination of sulfur content
• GB/T 19267.1-2008 Physical and chemical examination of trace evidence in forensic sciences.Part 1:Infrared absorption spectrometry
• GB/T 19267.1-2003 Physical and chemical examination of trace evidence in forensic sciences--Part 1: Infrared absorption spectrometry
• GB/T 8647.8-2006 The methods for chemical analysis of nickel. Determination of sulphur content. Infra-red absorption method after high frequency induction furnace combustion
• GB/T 8647.9-2006 The methods for chemical analysis of nickel. Determination of carbon content. Infra-red absorption method after high frequency induction furnace combustion
• GB/T 7730.5-2000 Methods for chemical analysis of ferromanganese and blast furnace ferromanganese The infrared absorption method for the determination of carbon content
• GB/T 17170-1997 Test method for deep level EL2 concentration of undoped semi-insulating monocrystal gallium arsenide by measurement infrared absorption method
• GB/T 4324.27-2012 Methods for chemical analysis of tungsten.Part 27:Determination of carbon content.High frequency combustion -infrared absorption method
• GB/T 8704.3-1997 Methods for chemical analysis of ferrovanadium. The infrared absorption method and the combustion neutralization titration method for the determination of sulfur content
• GB/T 26416.5-2010 Chemical analysis methods of dysprosium ferroalloy.Part 5: Determination of oxygen content.Impulse-infrared conductance absorption method
• GB/T 20975.26-2013 Methods for chemical analysis of aluminium and aluminium alloys.Part 26:Determination of carbon content.Infrared absorption method
• GB/T 20975.26-2013(英文版) Methods for chemical analysis of aluminium and aluminium alloys—Part 26：Determination of carbon content—Infrared absorption method
• GB/T 3654.6-2008 Ferroniobium. Determination of sulfur content. Combustion-iodate titrimetric method, methylene blue photometric method and infrared absorption method
• GB/T 4699.6-2008 Ferrochromium and silicochromium. Determination of sulfur content. The infrared absorption method and combustion-titration method
• GB/T 25248-2010 Determination of infrared cyanine dye for 830nm digital printing materials.High performance liquid chromatography
• GB/T 20123-2006 Steel and iron - Determination of total carbon and sulfur content Infrared absorption method after combustion in an induction furnace (routine method)
• GB/T 4325.21-2013 Methods for chemical analysis of molybdenum.Part 21:Determination of carbon content and sulfur content.High frequency combustion-infrared absorption method
• GB/T 3260.9-2013 Methods for chemical analysis of tin.Part 9:Determination of sulphur content.Infra-red absorption method after high frequency induction furnace combustion
• GB/T 26416.7-2023 Chemical Analysis Methods of Rare Earth Ferroalloys Part 7: Determination of Carbon and Sulfur Content by High Frequency-Infrared Absorption Method
• GB/T 26416.5-2022 Chemical analysis method for rare earth ferroalloy—Part 5: Determination of oxygen content—Impulse-infrared absorption method
• GB/T 8570.6-2010 Determination of liquefied anhydrous ammonia.Part 6:Oil content.Gravimetric and infra-red methods
• GB/T 4325.25-2013 Methods for chemical analysis of molybdenum.Part 25:Determination of hydrogen content.Inert gas fusion infrared absorption method/thermal conductivity method
• GB/T 4700.7-1998 Methods for chemical analysis of calcium-silicon The infrared absorption method and the combustion-potassium iodate titration method for the determination of sulfur content
• GB/T 11261-1989 Methods for chemical analysis of high carbon chromium bearing steel--The pulse heating inert gas fusion-infra-red absorption method for the determination of oxygen content
• GB/T 4324.25-2012 Methods for chemical analysis of tungsten.Part 25:Determination of oxygen content.Pulse heating inert gas fusion -infrared absorption method
• GB/T 1819.10-2004 Methods for chemical analysis of tin concentrates Determination of sulphur content-The high frequency infrared absorption method and the combustion potassium iodate titrimetric method
• GB/T 4324.23-2012 Methods for chemical analysis of tungsten.Part 23:Determination of sulfur content.The combustion-conductometric titration and high frequency combustion-infrared absorption method
• GB/T 4325.23-2013 Methods for chemical analysis of molybdenum.Part 23:Determination of oxygen and nitrogen contents.Inert gas fusion-infrared absorption and thermal conductivity method
• GB/T 12690.1-2002 Chemical analysis methods for non-RE impurity of rare earth metals and their oxides-Determination of carbon and sulfur contents--High frequency-infrared absorption method
• GB/T 12690.13-1990 Neodymium and samarium--Determination of carbon content--High frequency--Infrared absorption method
• GB/T 24224-2009 Chromium ores.Determination of sulfur content.Combustion-neutralization titration method,combustion-potassium iodate titration method and combustion-infrared absorption method
• GB/T 5686.7-2008 Ferromanganese, ferromanganese-silicon, nitrogen-bearing ferromanganese and manganese metal. Determination of sulfur content. Infrared absorption method and combustion-neutralization method
• GB/T 5686.7-2022 Ferromanganese，ferromanganese-silicon，nitrogen-bearing ferromanganese and manganese metal—Determination of sulfur content—Infrared absorption method and combustion-neutralization method
• GB/T 6150.4-2023 Methods of chemical analysis of tungsten concentrates-Part 4: Determination of sulfur content by high-frequency induction infrared absorption method and combustion-iodometric method

国家市场监督管理总局、中国国家标准化管理委员会, Low infrared absorption peak

• GB/T 4333.10-2019 Ferrosilicon—Determination of carbon content—Infrared absorption method
• GB/T 7731.10-2021 Ferrotungsten—Determination of carbon content—Infrared absorption method
• GB/T 24583.7-2019 Vanadium-nitrogen—Determination of oxygen content—Infrared absorption method
• GB/T 24583.6-2019 Vanadium-nitrogen—Determination of sulfur content—Infrared absorption method
• GB/T 24583.4-2019 Vanadium-nitrogen—Determination of carbon content—Infrared absorption method
• GB/T 1557-2018 Test method for determining interstitial oxygen content in silicon by infrared absorption
• GB/T 14949.11-2021 Manganese ores—Determination of carbon content—Gravimetric method and infrared absorption method
• GB/T 39114-2020 Nanotechnologies—Characterization of single-wall carbon nanotubes using ultraviolet-visible-near infrared (UV-Vis-NIR) absorption spectroscopy
• GB/T 4333.7-2019 Ferrosilicon—Determination of sulfur content—Infrared absorption method and chromatographic separation-barium sulfate gravimetric method
• GB/T 40561-2021 Photovoltaic silicon material—Determination of oxygen—Pulse heating inert gas fusion infrared absorption method
• GB/T 40566-2021 Granular polysilicon produced by fluidized bed method—Determination of hydrogen—Pulse heating inert gas fusion infrared absorption method

European Committee for Standardization (CEN), Low infrared absorption peak

• EN ISO 15349-2:2021 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) (ISO 15349-2:2021)
• EN ISO 15349-2:2003 Unalloyed steel Determination of low carbon content Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) ISO 15349-2:1999
• EN ISO 7526:2020 Ferronickels - Determination of sulfur content - Infrared absorption method after induction furnace combustion (ISO 7526:2020)
• EN 24935:1991 Steel and iron - Determination of sulphur content - Infrared absorption method after combustion in an induction furnace (ISO 4935:1989)
• EN ISO 9556:2001 Steel and Iron - Determination of Total Carbon Content - Infrared Absorption Method After Combustion in an Induction Furnace
• EN 27526:1991 Nickel, Ferronickel and Nickel Alloys - Determination of Sulfur Content - Infra-Red Absorption Method After Induction Furnace Combustion
• EN 24935:1991/AC:1992 Steel and iron; determination of sulfur content; infrared absorption method after combustion in an induction furnace; amends (ISO 4935:1989)
• EN ISO 15350:2010 Steel and iron - Determination of total carbon and sulfur content - Infrared absorption method after combustion in an induction furnace (routine method) (ISO 15350:2000)

British Standards Institution (BSI), Low infrared absorption peak

• BS EN ISO 15349-2:2003 Unalloyed steel - Determination of low carbon content - Infrared absorption method after combustion in an induction furnace (with preheating)
• BS EN ISO 15349-2:2021 Tracked Changes. Unalloyed steel. Determination of low carbon content. Infrared absorption method after combustion in an induction furnace (with preheating)
• BS EN ISO 7526:2020 Tracked Changes. Ferronickels. Determination of sulfur content. Infrared absorption method after induction furnace combustion
• BS ISO 13093:2023 Titanium and titanium alloys. Determination of carbon. Infrared absorption method after combustion in an induction furnace
• BS PD ISO/TR 9686:2017 Direct reduced iron. Determination of carbon and/or sulfur. High-frequency combustion method with infrared measurement
• BS ISO 9686:2006 Direct reduced iron - Determination of carbon and/or sulfur - High-frequency combustion method with infrared measurement
• BS PD ISO/TS 10719:2016 Cast irons. Determination of non-combined carbon content. Infrared absorption method after combustion in an induction furnace
• PD ISO/TS 10719:2016 Cast irons. Determination of non-combined carbon content. Infrared absorption method after combustion in an induction furnace
• BS EN ISO 9556:2001 Steel and iron - Determination of total carbon content - Infrared absorption method after combustion in an induction furnace
• 23/30454115 DC BS ISO 13093. Titanium and titanium alloys. Determination of carbon. Infrared absorption method after combustion in an induction furnace
• 20/30387751 DC BS EN ISO 15349-2. Unalloyed steel. Determination of low carbon content. Part 2. Infrared absorption method after combustion in an induction furnace (with preheating)
• 19/30387212 DC BS ISO 7524. Ferronickel. Determination of carbon content. Infra-red absorption method after combustion in an induction furnace (Routine method)
• PD ISO/TS 10868:2017 Tracked Changes. Nanotechnologies. Characterization of single-wall carbon nanotubes using ultraviolet-visible-near infrared (UV-Vis-NIR) absorption spectroscopy
• BS ISO 7524:2020 Tracked Changes. Ferronickels. Determination of carbon content. Infrared absorption method after induction furnace combustion
• BS EN ISO 15350:2001 Steel and iron. Determination of total carbon and sulfur content. Infrared absorption method after combustion in an induction furnace (routine method)
• BS EN ISO 15350:2010 Steel and iron - Determination of total carbon and sulfur content - Infrared absorption method after combustion in an induction furnace (routine method)
• 19/30387215 DC BS EN ISO 7526. Ferronickels. Determination of sulfur content. Infra-red absorption method after combustion in an induction furnace [Routine method]
• BS DD ISO/TS 10868:2011 Nanotechnologies. Characterization of singlewall carbon nanotubes using ultraviolet-visible-near infrared (UV-Vis-NIR) absorption spectroscopy
• PD IEC/TS 62607-4-6:2018 Nanomanufacturing. Key control characteristics. Nano-enabled electrical energy storage. Determination of carbon content for nano-enabled electrode materials, infrared absorption method

工业和信息化部, Low infrared absorption peak

• YB/T 4566.7-2016 Determination of vanadium iron sulfur content by infrared absorption method
• YB/T 4566.8-2016 Determination of carbon content of vanadium iron nitride by infrared absorption method
• YB/T 4566.9-2016 Determination of vanadium nitride iron oxygen content by infrared absorption method
• YB/T 4582.10-2017 Determination of carbon content in silicon ferronitride by infrared absorption method
• YB/T 4726.6-2021 Determination of sulfur content in iron-containing dust and mud by infrared absorption method
• YB/T 4726.8-2021 Determination of carbon content in iron dust mud by infrared absorption method
• YB/T 4582.4-2017 Determination of sulfur content in silicon iron nitride by infrared absorption method
• YB/T 5316-2016 Determination of carbon content of calcium silicon alloy by high frequency combustion infrared absorption method
• YB/T 4738-2019 Determination of oxygen content of calcium silicon alloy by inert gas fusion infrared absorption method
• YB/T 4908.5-2021 Determination of carbon and sulfur content in vanadium-aluminum alloys High-frequency induction combustion-infrared absorption method
• HG/T 5594-2019 Determination of carbon and sulfur in petroleum refining catalysts by high frequency combustion infrared absorption method
• YS/T 1550.4-2022 Methods for chemical analysis of beryllium alloys Part 4: Determination of carbon content by infrared absorption method
• YS/T 540.3-2018 Methods for chemical analysis of vanadium Part 3: Determination of carbon content High frequency combustion infrared absorption method
• YB/T 4908.4-2021 Determination of hydrogen content in vanadium-aluminum alloys by inert gas fusion infrared absorption method or thermal conductivity method
• YS/T 540.7-2018 Methods for chemical analysis of vanadium Part 7: Determination of oxygen content Inert gas fusion infrared absorption method
• YB/T 4908.6-2021 Determination of oxygen and nitrogen content in vanadium-aluminum alloys by inert gas fusion infrared absorption method and thermal conductivity method
• YS/T 1550.5-2022 Methods for chemical analysis of beryllium alloys Part 5: Determination of oxygen content Inert gas fusion infrared absorption method
• YS/T 1562.4-2022 Methods for chemical analysis of tungsten-copper alloys Part 4: Determination of carbon content High-frequency combustion infrared absorption method
• YS/T 1525-2022 Chemical analysis methods for nickel-platinum alloys, determination of oxygen and nitrogen content, pulse-infrared absorption method and thermal conductivity detection method
• YS/T 424.4-2022 Methods for chemical analysis of titanium diboride powder Part 4: Determination of carbon content High-frequency combustion infrared absorption method
• XB/T 622.5-2017 Methods for chemical analysis of rare earth hydrogen storage alloys Part 5: Determination of carbon content High frequency combustion infrared absorption method
• XB/T 622.6-2017 Methods for chemical analysis of rare earth hydrogen storage alloys Part 6: Determination of oxygen content Pulse heating infrared absorption method
• YS/T 1563.5-2022 Methods for chemical analysis of molybdenum-rhenium alloys Part 5: Determination of carbon and sulfur content High-frequency combustion infrared absorption method
• YS/T 1585.4-2022 Methods for chemical analysis of silver-tungsten alloys Part 4: Determination of carbon content High-frequency induction furnace combustion infrared absorption method
• YS/T 1057.5-2022 Methods for chemical analysis of cobalt tetroxide Part 5: Determination of carbon content High-frequency combustion-infrared absorption spectrometry
• YS/T 1509.2-2021 Chemical analysis method of silicon-carbon composite anode materials Part 2: Determination of carbon content High-frequency heating infrared absorption method
• YS/T 1489.7-2021 Methods for chemical analysis of cobalt-chromium-tungsten alloy powders Part 7: Determination of carbon content High-frequency combustion infrared absorption method
• YS/T 424.5-2022 Methods for chemical analysis of titanium diboride powder Part 5: Determination of oxygen content Pulse heating inert gas melting-infrared absorption method

German Institute for Standardization, Low infrared absorption peak

• DIN EN ISO 15349-2:2003 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) (ISO 15349-2:1999); German version EN ISO 15349-2:2003
• DIN EN ISO 9556:2002-04 Steel and iron - Determination of total carbon content - Infrared absorption method after combustion in an induction furnace (ISO 9556:1989); German version EN ISO 9556:2001
• DIN EN ISO 15349-2:2023-02 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) (ISO 15349-2:2021); German version EN ISO 15349-2:2021
• DIN EN 24935:1992 Determination of sulfur content of steel and iron by infrared absorption spectroscopy after combustion in an induction furnace (ISO 4935:1989); german version EN 24935:1991
• DIN EN ISO 21789:2020-06 Ferronickels - Determination of sulfur content - Infrared absorption method after induction furnace combustion (ISO 7526:2020); German version EN ISO 7526:2020
• DIN EN ISO 7526:2020-06 Ferronickels - Determination of sulfur content - Infrared absorption method after induction furnace combustion (ISO 7526:2020); German version EN ISO 7526:2020
• DIN EN ISO 15349-2:2020 Unalloyed steel - Determination of low carbon content - Infrared absorption method after combustion in an induction furnace (with preheating) (ISO/DIS 15349-2:2020); German and English version prEN ISO 15349-2:2020
• DIN EN ISO 7526:2020 Ferronickels - Determination of sulfur content - Infrared absorption method after induction furnace combustion (ISO 7526:2020)
• DIN EN ISO 15349-2:2023 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) (ISO 15349-2:2021)
• DIN EN ISO 15350:2010-08 Steel and iron - Determination of total carbon and sulfur content - Infrared absorption method after combustion in an induction furnace (routine method) (ISO 15350:2000); German version EN ISO 15350:2010
• DIN EN ISO 15349-2:2021 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) (ISO 15349-2:2021); German version EN ISO 15349-2:2021
• DIN EN 27526:1992 Nickel, ferronickel and nickel alloys; determination of sulfur content; infra-red absorption method after induction furnace combustion (ISO 7526:1985); german version EN 27526:1991
• DIN EN 24935:1992-07 Determination of sulfur content of steel and iron by infrared absorption spectroscopy after combustion in an induction furnace (ISO 4935:1989); german version EN 24935:1991
• DIN 50438-2:1982 Testing of materials for semiconductor technology; determination of impurty content in silicon by infrared absorption; carbon
• DIN EN ISO 9556:2002 Steel and iron - Determination of total carbon content - Infrared absorption method after combustion in an induction furnace (ISO 9556:1989); German version EN ISO 9556:2001

American National Standards Institute （ANSI), Low infrared absorption peak

• ANSI/TIA/EIA 455-106-1992 Procedure for Measuring the Near-Infrared Absorbance of Fiber Optic Coating Materials

Association Francaise de Normalisation, Low infrared absorption peak

• NF X20-301:1978 Gas analysis by absorption of a non dispersive infra-red radiation beam.
• NF X20-351:1975 Determination of sulphur dioxide by absorption of a non dispersive infra-red radiation beam.
• NF EN ISO 7526:2020 Ferronickels - Détermination de la teneur en soufre - Méthode par absorption dans l'infrarouge après combustion dans un four à induction
• NF A06-386-2:2003 Unalloyed steel - Determination of low carbon content - Part 2 : infrared absorption method after combustion in an induction furnace (with preheating).
• NF A06-391*NF EN ISO 9556:2001 Steel and iron - Determination of total carbon content - Infrared absorption method after combustion in an induction furnace
• NF A54-106*NF ISO 7524:2020 Ferronickels - Determination of carbon content - Infrared absorption method after induction furnace combustion
• NF A10-621*NF EN ISO 7526:2020 Ferronickels - Determination of sulfur content - Infrared absorption method after induction furnace combustion
• NF A06-386-2*NF EN ISO 15349-2:2021 Unalloyed steel - Determination of low carbon content - Part 2 : infrared absorption method after combustion in an induction furnace (with preheating)
• NF A06-367*NF EN 24935:1992 Steel and iron. Determination of sulfur content. Infrared absorption method after combustion in an induction furnace.
• NF X20-361:1976 Gas analysis. Determination of carbon monoxide by absorption of a non dispersive infra-red radiation beam.
• NF ISO 7524:2020 Ferronickels - Détermination de la teneur en carbone - Méthode par absorption dans l'infrarouge après combustion dans un four à induction
• XP A06-560*XP ISO/TS 10719:2021 Cast irons - Determination of non-combined carbon content - lnfrared absorption method after combustion in an induction furnace
• NF A06-391:1988 STEEL AND IRON. DETERMINATION OF TOTAL CARBON CONTENT. INFRARED ABSORPTION METHOD AFTER COMBUSTION IN AN INDUCTION FURNACE.
• NF A06-558*NF EN ISO 15350:2010 Steel and iron - Determination of total carbon and sulfur content - Infrared absorption method after combustion in an induction furnace (routine method).
• NF X43-012:1974 Determination of carbon monoxide content in the ambient outdoor air, by absorption of an infrared radiation.
• NF A06-726:1992 Analyse chimique du cuivre - Dosage du soufre - Méthode par absorption dans l'infrarouge après combustion dans un four à induction.
• NF A10-621:1992 Nickel, ferronickel and nickel alloys. Determination of sulfur content. Infra-red absorption method after induction furnace combustion.

Professional Standard - Ocean, Low infrared absorption peak

• HY/T 150-2013 Determination of organic carbon in sea water by nondispersive infrared absorption spectrometry
• HY/T 196-2015 Determination of dissolved inorganic carbon in sea water using non-dispersive infrared absorption

Professional Standard - Commodity Inspection, Low infrared absorption peak

• SN/T 3601-2013 Determination of total sulfur in graphite.Infrared absorption spectrometry
• SN/T 3598-2013 Determination of sulfur content in pyrites ore.High frequency combustion with infrared absorption method
• SN/T 4363-2015 Determination of Sulfur Content in Copper Concentrates High Frequency Combustion Infrared Absorption Method
• SN/T 4366-2015 Determination of Sulfur Content in Gold Ore High Frequency Combustion Infrared Absorption Method
• SN/T 3084.1-2012 Occular irritation test of cosmetics for import and export.Neutral red uptake assays in vitro
• SN/T 2638.3-2012 Determination of sulfur content in manganese ores for import and export.High temperature combustion infrared absorption method
• SN/T 3323.2-2012 Mill scale.Part 2:Determination of sulfur content.High frequency combustion infrared absorption method
• SN/T 2413-2010 Determination of total carbon and sulfur contents of silicon metal for import and export-Infrared absorption spectromentry
• SN/T 3469.3-2013 Determination of sulfur content in import copper matte and sintered copper material.High frequency combustion with infrared absorption method
• SN/T 3321.2-2013 Limestone and dolomite.Part 2:Determination of carbon and sulfur content.High frequency combustion with infrared absorption method
• SN/T 0481.8-2010 Methods for inspection of bauxite for export.Part 8:Determination of sulfur content.High frequency combustion-infrared absorption method
• SN/T 2638.4-2013 Determination of sulfur content in manganese ores for import and export.High frequency combustion with infrared absorption method

American Society for Testing and Materials (ASTM), Low infrared absorption peak

• ASTM D2357-11 Standard for Qualitative Classification of Surfactants by Infrared Absorption
• ASTM D2357-74(1995)e1 Standard for Qualitative Classification of Surfactants by Infrared Absorption
• ASTM D2357-74(2003) Standard for Qualitative Classification of Surfactants by Infrared Absorption
• ASTM D2357-11(2016) Standard for Qualitative Classification of Surfactants by Infrared Absorption
• ASTM D2702-05 Standard Practice for Rubber Chemicals-Determination of Infrared Absorption Characteristics
• ASTM D2702-94(1998) Standard Practice for Rubber Chemicals-Determination of Infrared Absorption Characteristics
• ASTM D2144-07(2021) Standard Practices for Examination of Electrical Insulating Oils by Infrared Absorption
• ASTM D2702-05(2021) Standard Practice for Rubber Chemicals—Determination of Infrared Absorption Characteristics
• ASTM D2144-94 Standard Test Methods for Examination of Electrical Insulating Oils by Infrared Absorption
• ASTM D2144-01 Standard Test Methods for Examination of Electrical Insulating Oils by Infrared Absorption
• ASTM D2144-01e1 Standard Test Methods for Examination of Electrical Insulating Oils by Infrared Absorption
• ASTM D2702-05(2016) Standard Practice for Rubber Chemicals&x2014;Determination of Infrared Absorption Characteristics
• ASTM D2144-07 Standard Practices for Examination of Electrical Insulating Oils by Infrared Absorption
• ASTM D2144-07(2013) Standard Practices for Examination of Electrical Insulating Oils by Infrared Absorption
• ASTM D2702-05(2011) Standard Practice for Rubber Chemicalsmdash;Determination of Infrared Absorption Characteristics
• ASTM F1188-00 Standard Test Method for Interstitial Atomic Oxygen Content of Silicon by Infrared Absorption
• ASTM E2050-99 Standard Test Method for Determination of Total Carbon in Mold Powders by Combustion-Infrared Absorption Method
• ASTM D2702-04 Standard Practice for Rubber Chemicals-Determination of Infrared Absorption Characteristics
• ASTM E2050-99(2004) Standard Test Method for Determination of Total Carbon in Mold Powders by Combustion-Infrared Absorption Method
• ASTM E2050-12 Standard Test Method for Determination of Total Carbon in Mold Powders by Combustion-Infrared Absorption Spectrometry
• ASTM D7172-14 Standard Test Method for Determining the Relative Density 40;Specific Gravity41; and Absorption of Fine Aggregates Using Infrared
• ASTM D7172-06e1 Standard Test Method for Determining The Relative Density (Specific Gravity) And Absorption Of Fine Aggregates Using Infrared
• ASTM E1915-05 Standard Test Methods for Analysis of Metal Bearing Ores and Related Materials by Combustion Infrared Absorption Spectrometry
• ASTM D7172-06 Standard Test Method for Determining The Relative Density (Specific Gravity) And Absorption Of Fine Aggregates Using Infrared
• ASTM E1915-99 Standard Test Method for Analysis of Metal Bearing Ores and Related Materials by Combustion Infrared Absorption Spectrometry
• ASTM E1915-01 Standard Test Methods for Analysis of Metal Bearing Ores and Related Materials by Combustion Infrared Absorption Spectrometry
• ASTM E1915-07a Standard Test Methods for Analysis of Metal Bearing Ores and Related Materials by Combustion Infrared-Absorption Spectrometry
• ASTM E1915-07 Standard Test Methods for Analysis of Metal Bearing Ores and Related Materials by Combustion Infrared-Absorption Spectrometry
• ASTM D2668-07(2021) Standard Test Method for 2,6-di-tert-Butyl- p-Cresol and 2,6-di
• ASTM D5016-98 Standard Test Method for Sulfur in Ash from Coal, Coke, and Residues from Coal Combustion Using High-Temperature Tube Furnace Combustion Method with Infrared Absorption
• ASTM E204-98 Standard Practices for Identification of Material by Infrared Absorption Spectroscopy, Using the ASTM Coded Band and Chemical Classification Index
• ASTM D5016-08 Standard Test Method for Total Sulfur in Coal and Coke Combustion Residues Using a High-Temperature Tube Furnace Combustion Method with Infrared Absorption
• ASTM E204-98(2002) Standard Practices for Identification of Material by Infrared Absorption Spectroscopy, Using the ASTM Coded Band and Chemical Classification Index

Professional Standard - Non-ferrous Metal, Low infrared absorption peak

• YS/T 1035-2015 Determination of carbon content in aluminum electrolyte.IR absorption spectrometry method
• YS/T 426.7-2000 Method for chemical analysis of antimony-beryllium pellets.Determination of carbon content.High frequency-infrared absorption method
• YS/T 514.3-2009 Methods for chemical analysis of high-titanium slag and rutile.Part 3:Determination of sulfur content.High frequency infrared absorption method
• YS/T 514.10-2009 Methods for chemical analysis of high-titanium slag and rutile.Part 10:Determination of carbon content.High frequency infrared absorption method
• YS/T 281.14-1994 Cobalt - Determination of sulphur content - Infra-red absorption method after high frequency induction furnace combustion
• YS/T 281.15-1994 Cobalt - Determination of carbon content - Infra-red absorption method after high frequency induction furnace combustion
• YS/T 281.20-2011 Methods for chemical analysis of cobalt.Part 20：Determination of oxide content.Impulse infrared absorption
• YS/T 820.16-2012 Methods for chemical analysis of laterite nickel ores.Part 16:Determination of carbon and sulfur content.High frequency combustion with infrared absorption spectrometry
• YS/T 575.24-2009 Method for chemical analysis of aluminum ores.Part 24:Determination of carbon content and sulfur content.Infrared absorption method
• YS/T 710.3-2009 Method for chemical analysis of cobalt oxide.Part 3:Determination of sulphur content.High frequency combustion-infrared absorption method
• YS/T 1028.4-2015 Methods for chemical analysis of lithium iron phosphate.Part 4:Determination of carbon content.High frequency combustion with infrared absorption method
• YS/T 861.4-2013 Methods for chemical analysis of niobium-titanium alloy.Part 4:Determination of carbon content.The high-frequency infrared absorption method
• YS/T 281.13-2011 Methods for chemical analysis of cobalt.Part 13:Determination of sulphur content.Infra-red absorption method after high frequency induction furnace combustion
• YS/T 281.14-2011 Methods for chemical analysis of cobalt.Part 14:Determination of carbon content.Infra-red absorption method after high frequency induction furnace combustion
• YS/T 1047.4-2015 Methods for chemical analysis of copper magnetite.Part 4:Determination of sulfur content.High frequency combustion with infrared absorption method
• YS/T 861.2-2013 Methods for chemical analysis of niobium-titanium alloy.Part 2:Determination of oxygen and nitrogen content.Inert gas fusion infrared/thermal conductivity method
• YS/T 904.5-2013 Methods for chemical analysis of iron-chromium-aluminum fiber.Part 5:Determination of carbon and sulfur content.High-frequency infrared absorption method
• YS/T 1605.12-2023 Methods for chemical analysis of roasted molybdenum concentrate— Part 12:Determination of carbon and sulfur contents — High frequency combustion infrared absorption method
• YS/T 1075.6-2015 Methods for chemical analysis of vanadium-aluminium and molybdenum-aluminium master alloys.Part 6:Determination of carbon content.High frequency combustion infrared absorption method
• YS/T 953.9-2014 Methods for chemical analysis of fire smelting nickel substrate material.Part 9:Determination of carbon and sulfur contents.Infrared absorption method after high frequency combustion
• YS/T 539.13-2009 Methods for chemical analysis of nickel base alloy powder.Part 13:Determination of oxygen content.The pulse heating inert gas fusion-infrared absorption method
• YS/T 1058-2015 Nickel, cobalt, manganese three-element composite oxide chemical analysis method Determination of sulfur content High-frequency induction furnace combustion infrared absorption method

Professional Standard - Military and Civilian Products, Low infrared absorption peak

• WJ 2261-1994 Verification rules for thermal conductivity and infrared absorption nitrogen and oxygen detectors

Henan Provincial Standard of the People's Republic of China, Low infrared absorption peak

• DB41/T 1050-2015 Ferrosilicon Chemical Analysis Method Infrared Absorption Method for Determination of Sulfur Content
• DB41/T 1569-2018 Determination of Fixed Carbon Content in Graphite Ore High Frequency Combustion Infrared Absorption Method

Group Standards of the People's Republic of China, Low infrared absorption peak

• T/CMES 08006-2020 Determination of Sulfur Content in Carburizers High Frequency Combustion Infrared Absorption Method
• T/NXCL 023-2023 Determination of hydrogen and nitrogen in Beryllium— Inert gas fusion infrared absorption/ thermal conductivity method
• T/CMES 08005-2020 Determination of Carbon and Sulfur Content in Ferrochromium Nitride High Frequency Combustion Infrared Absorption Method
• T/CSTM 00013-2019 Cast iron—Determination of non-combined carbon content—infrared absorption method after combustion in an induction furnace
• T/LNWTA 002-2019 Rapid Identification of Polymers in Pipes for Water Supply Infrared absorption spectrometry（IR）and differential scanning calorimetry（DSC）
• T/QAS 081.1-2023 Chemical Analysis of Polymetallic Minerals Part 1: Determination of Carbon and Sulfur by High Frequency Combustion Infrared Absorption Method
• T/CSTM 00254-2020 The pyrolysis products of polycarbosilane–Determination of oxygen by the pulse heating insert gas fusion-infra-red absorption method
• T/CSTM 00660.1-2023 Methods for chemical analysis of titanium carbide slag— Part 1:Determination of free carbon content—High frequency combustion with infrared absorption method
• T/CIC 401-2021 High temperature non-dispersive infrared absorption method for detection of inorganic harmful gas factors in waste gas from fixed pollution sources in metallurgical industry
• T/CWAN 0029.2-2021 Chemical analysis methods of nickel-based welding materials Part 2: Determination of carbon and sulfur content by infrared absorption method of high-frequency induction furnace combustion

海关总署, Low infrared absorption peak

• SN/T 5347.1-2021 Determination of carbon and sulfur content in chromium ore by high frequency infrared absorption method
• SN/T 5250-2020 Determination of sulfur content in mineral products by high-frequency combustion infrared absorption method
• SN/T 5351-2021 Determination of hydrogen in aluminum and aluminum alloys by inert gas melting-infrared absorption method

Military Standard of the People's Republic of China-General Armament Department, Low infrared absorption peak

• GJB 226.1-1992 Test methods for tracked vehicles with rubber-mounted road wheels Infrared absorption test

Danish Standards Foundation, Low infrared absorption peak

• DS/ISO 15349-2:2021 Unalloyed steel – Determination of low carbon content – Part 2: Infrared absorption method after combustion in an induction furnace (with preheating)
• DS/ISO 4935:1993 Steel and iron - Determination of sulfur content - Infrared absorption method after combustion in an induction furnace
• DS/EN ISO 9556:2001 Steel and iron - Determination of total carbon content - Infrared absorption method after combustion in an induction furnace
• DS/EN ISO 15349-2:2003 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating)
• DS/EN 24935:1993 Steel and iron. Determination of sulfur content. Infrared absorption method after combustion in an induction furnace
• DS/EN ISO 15349-2:2021 Unalloyed steel – Determination of low carbon content – Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) (ISO 15349-2:2021)
• DS/ISO/TS 10868:2011 Nanotechnologies - Characterization of single-wall carbon nanotubes using ultraviolet-visible-near infrared (UV-Vis-NIR) absorption spectroscopy
• DS/EN 27526:1993 Nickel, ferronickel and nickel alloys. Determination of sulfur content. Infra-red absorption method after induction furnace combustion
• DS/ISO 7526:1993 Nickel, ferronickel and nickel alloys - Determination of sulfur content - Infra-red absorption method after induction furnace combustion
• DS/EN ISO 15350:2010 Steel and iron - Determination of total carbon and sulfur content - Infrared absorption method after combustion in an induction furnace (routine method)

RU-GOST R, Low infrared absorption peak

• GOST R ISO 15349-2-2017 Unalloyed steel. Determination of low carbon content. Part 2. Infrared absorption method after combustion in induction furnace (with preheating)
• GOST R ISO 9686-2009 Direct reduced iron. Determination of carbon and/or sulfur content. Method of infrared spectroscopy after sample burning in induction furnace

Professional Standard - Textile, Low infrared absorption peak

• FZ/T 01057.8-1999 Test method for identification of textile fibres.Infrared absorption spectrum

(U.S.) Telecommunications Industries Association , Low infrared absorption peak

• TIA-455-106-1992 FOTP 106 Procedures for Determining Threshold Current of Semiconductor Lasers

Professional Standard - Public Safety Standards, Low infrared absorption peak

• GA/T 823.2-2009 Analysis method for paint fragment.Part 2:Infrared absorption spectrometry

Professional Standard - Nuclear Industry, Low infrared absorption peak

• EJ/T 746-1992 Infrared Absorption Method for Heavy Water Concentration Analysis in Primary Circuit of Heavy Water Research Reactor
• EJ/T 1164-2002 Determination of sulfur content in uranium dioxide powder - Infrared absorption method after combustion in an induction furnace
• EJ/T 20154-2018 Determination of sulfur, total carbon, organic carbon and inorganic carbon in uranium ore by infrared absorption method
• EJ/T 20142-2016 Determination of Carbon in Nuclear Grade Plutonium Dioxide Powder High Frequency Combustion Infrared Absorption Method
• EJ/T 20166-2018 Determination of carbon and sulfur in reprocessed uranium trioxide powder by high-frequency combustion infrared absorption method
• EJ/T 20171-2018 Determination of Oxygen Content in Uranium Metal and Uranium Alloys Pulse Heating Inert Gas Fusion-Infrared Absorption Method

International Organization for Standardization (ISO), Low infrared absorption peak

• ISO/PRF 13093:1972 Titanium and titanium alloys — Determination of carbon — Infrared absorption method after combustion in an induction furnace
• ISO 13093:2023 Titanium and titanium alloys — Determination of carbon — Infrared absorption method after combustion in an induction furnace
• ISO 15349-2:1999 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating)
• ISO 15349-2:2021 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating)
• ISO/TR 15349-3:1998 Unalloyed steel - Determination of low carbon content - Part 3: Infrared absorption method after combustion in an electric resistance furnace (with preheating)
• ISO/TR 15349-1:1998 Unalloyed steel - Determination of low carbon content - Part 1: Infrared absorption method after combustion in an electric resistance furnace (by peak separation)
• ISO 4935:1990 Steel and iron; determination of sulfur content; infrared absorption method after combustion in an induction furnace
• ISO/DIS 24476 Steel – Determination of oxygen – Infrared absorption method after fusion under inert gas (Routine method)
• ISO 7524:2020 Ferronickels — Determination of carbon content — Infrared absorption method after induction furnace combustion
• ISO 7526:2020 Ferronickels — Determination of sulfur content — Infrared absorption method after induction furnace combustion
• ISO/TS 10719:2016 Cast irons - Determination of non-combined carbon content - lnfrared absorption method after combustion in an induction furnace
• ISO/TS 10719:1994 Cast irons - Determination of non-combined carbon content - lnfrared absorption method after combustion in an induction furnace
• ISO 9556:1989 Steel and iron; determination of total carbon content; infrared absorption method after combustion in an induction furnace
• ISO/TS 10868:2011 Nanotechnologies - Characterization of single-wall carbon nanotubes using ultraviolet-visible-near infrared (UV-Vis-NIR) absorption spectroscopy
• ISO/TS 10868:2017 Nanotechnologies - Characterization of single-wall carbon nanotubes using ultraviolet-visible-near infrared (UV-Vis-NIR) absorption spectroscopy
• ISO/TR 10719:1994 Steel and iron - Determination of non-combined carbon content - Infrared absorption method after combustion in an induction furnace
• ISO 9686:1992 Direct reduced iron; determination of carbon and/or sulfur content; high frequency combustion method with infrared measurement
• ISO 7524:1985 Nickel, ferronickel and nickel alloys; determination of carbon content; infra-red absorption method after induction furnace combustion
• ISO 7526:1985 Nickel, ferronickel and nickel alloys; Determination of sulfur content; Infra-red absorption method after induction furnace combustion
• ISO 15350:2000 Steel and iron - Determination of total carbon and sulfur content - Infrared absorption method after combustion in an induction furnace (routine method)

未注明发布机构, Low infrared absorption peak

• BS EN ISO 9556:2001(2009) Steel and iron — Determination oftotal carbon content — Infrared absorption method after combustion in an induction furnace
• ISO 4935:1989/Cor 1:1990 Steel and iron — Determination of sulfur content — Infrared absorption method after combustion in an induction furnace

ES-UNE, Low infrared absorption peak

• UNE-EN ISO 7526:2020 Ferronickels - Determination of sulfur content - Infrared absorption method after induction furnace combustion (ISO 7526:2020) (Endorsed by Asociación Española de Normalización in May of 2020.)
• UNE-EN ISO 15349-2:2022 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) (ISO 15349-2:2021)

IT-UNI, Low infrared absorption peak

• UNI EN ISO 15349-2:2021 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating)

SE-SIS, Low infrared absorption peak

• SIS SS-EN 24 935-1992 Steel and iron — Determination of sulfur content — Infrared absorption method after combustion in an induction furnace
• SIS SS-EN 27 526-1992 Nickel, ferronickel and nickel alloys — Determination of sulfur content — Infra- red absorption method after induction furnace combustion

Professional Standard - Environmental Protection, Low infrared absorption peak

• HJ/T 71-2001 Water quality-Determination of total organic carbon-Nondispersive infrared absorption method
• HJ 501-2009 Water quality.Determination of total organic carbon.Combustion oxidation nondispersive infrared absorption method
• HJ 692-2014 Stationary source emission.Determination of nitrogen oxides.Non-dispersive infrared absorption method
• HJ/T 44-1999 Stationary source emission.Determination of carbon monoxide.Non-dispersive infrared absorption method
• HJ 870-2017 Stationary source emission - Determination of carbon dioxide - Non-dispersive infrared absorption method
• HJ 629-2011 Stationary source emission.dtermination of sulphur dioxide.Non-dispersive infrared absorption method

KR-KS, Low infrared absorption peak

• KS D ISO 9556-2021 Steel and iron — Determination of total carbon content — Infrared absorption method after combustion in an induction furnace
• KS D ISO 7524-2022 Ferronickels — Determination of carbon content — Infrared absorption method after induction furnace combustion
• KS D ISO 7526-2022 Ferronickels — Determination of sulfur content — Infrared absorption method after induction furnace combustion
• KS D ISO 10719-2021 Cast irons — Determination of non-combined carbon content —Infrared absorption method after combustion in an induction furnace
• KS D ISO 15350-2003(2023) Steel and iron－Determination of total carbone and sulfur content－Infrared absorption method after combustion in an induction furnace(routine method)

YU-JUS, Low infrared absorption peak

• JUS C.A1.703-1987 Nickel metal, ferronickel and nickel alloys. Determination of carbon content. Infra-red absorption met-hod after induction fumace combustion

Sichuan Provincial Standard of the People's Republic of China, Low infrared absorption peak

• DB51/T 2042-2015 Determination of Carbon and Sulfur Content in Vanadium Aluminum Alloys High Frequency Induction Combustion-Infrared Absorption Method
• DB51/T 2041-2015 Determination of hydrogen content in vanadium aluminum alloys Inert gas fusion - thermal conductivity or infrared absorption method
• DB51/T 2043-2015 Determination of Oxygen and Nitrogen Content in Vanadium Aluminum Alloy Inert Gas Fusion-Infrared Absorption Method and Thermal Conductivity Method

Lithuanian Standards Office , Low infrared absorption peak

• LST EN 24935-2000 Steel and iron - Determination of sulphur content - Infrared absorption method after combustion in an induction furnace (ISO 4935:1989)
• LST EN ISO 9556:2003 Steel and iron - Determination of total carbon content - Infrared absorption method after combustion in an induction furnace (ISO 9556:1989)
• LST EN ISO 15349-2:2021 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) (ISO 15349-2:2021)
• LST EN ISO 15349-2:2004 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) (ISO 15349-2:1999)
• LST EN 27526-2001 Nickel, ferronickel and nickel alloys - Determination of sulphur content - Infra-red absorption method after induction furnace combustion (ISO 7526:1985)
• LST EN ISO 15350:2010 Steel and iron - Determination of total carbon and sulfur content - Infrared absorption method after combustion in an induction furnace (routine method) (ISO 15350:2000)

CZ-CSN, Low infrared absorption peak

• CSN ISO 4935:1993 Steel and iron. Determination of sulfur content. Infrared absorption method after combustion in an induction furnace

AENOR, Low infrared absorption peak

• UNE-EN ISO 9556:2002 Steel and iron - Determination of total carbon content - Infrared absorption method after combustion in an induction furnace. (ISO 9556:1989)
• UNE-EN ISO 15349-2:2006 Unalloyed steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (with preheating) (ISO 15349-2:1999)
• UNE-EN 24935:1993 STEEL AND IRON. DETERMINATION OF SULFUR CONTENT. INFRARED ABSORPTION METHOD AFTER COMBUSTION IN AN INDUCTION FURNACE. (ISO 4935:1989).
• UNE-EN 27526:1992 NICKEL, FERRONICKEL AND NICKEL ALLOYS. DETERMINATION OF SULFUR CONTENT. INFRARED ABSORPTION METHOD AFTER INDUCTION FURNACE COMBUSTION (ISO 7526:1985)
• UNE-EN ISO 15350:2011 Steel and iron - Determination of total carbon and sulfur content - Infrared absorption method after combustion in an induction furnace (routine method) (ISO 15350:2000)

AT-ON, Low infrared absorption peak

• ONORM EN 27526-1992 Nickel, ferronickel and nickel alloys - Determination of sulfur content - Infra-red absorption method after induction furnace combustion

Jiangxi Provincial Standard of the People's Republic of China, Low infrared absorption peak

• DB36/T 1387-2021 Portable Fourier Transform Infrared Absorption Method for Determination of Ammonia and Hydrogen Chloride in Stationary Pollution Source Waste Gas
• DB36/T 815-2014 Determination of Hydrogen Content by Pulse Heating-Infrared Absorption Method for Chemical Analysis of SmCo Permanent Magnetic Alloy Powder

Professional Standard - Aviation, Low infrared absorption peak

• HB 5297.22-2001 Titanium Alloy Chemical Analysis Method High Frequency Induction Heating-Infrared Absorption Method Determination of Carbon Content
• HB 5220.3-1995 High-frequency Induction Heating-Infrared Absorption Method for Chemical Analysis of Superalloys Determination of Carbon Content
• HB 5220.6-1995 High-frequency induction heating-infrared absorption method for chemical analysis of superalloys Determination of sulfur content
• HB 5220.3-2008 Methods for chemical analysis of super alloys. Part 3: Determination of carbon content by high frequency induction combustion-infrared absorption method
• HB 5220.6-2008 Methods for chemical analysis of superalloys.Part 6:Determination of sulfur content by high frequency induction combustion-infrared absorption method

中华人民共和国国家质量监督检验检疫总局、中国国家标准化管理委员会, Low infrared absorption peak

• GB/T 4702.17-2016 Chromium metal─Determination of oxygen, nitrogen and hydrogen content─Inert gas fusion thermal infrared detection method and conductivity method
• GB/T 13747.24-2017 Methods for chemical analysis of zirconium and zirconium alloys—Part 24：Determination of carbon content—Infrared absorption method after high frequency combustion
• GB/T 10574.12-2017 Methods for chemical analysis of tin-lead solders—Part 12：Determination of sulfur content—High frequency combustion with infrared absorption method
• GB/T 13747.21-2017 Methods for chemical analysis of zirconium and zirconium alloys—Part 21：Determination of hydrogen content—Inert gas fusion-infrared absorption or thermal conductivity method

Professional Standard - Rare Earth, Low infrared absorption peak

• XB/T 614.3-2011 Chemical analysis method of gadolinium-magnesium alloy.Part 3:Determination of carbon content.High frequency-infrared absorption method
• XB/T 601.9-1993 Lanthanum hexaboride chemical analysis method Determination of carbon content by high frequency induction combustion infrared absorption method
• XB/T 617.6-2014 Chemical analysis methods of neodymium iron boron alloy.Part 6:Determination of carbon content.High frequency-infrared absorption method
• XB/T 610.3-2015 Chemical analysis methods for samarium-cobalt permanent magnet alloy.Part 3: Determination of oxygen content.Impulse-infrared absorption method
• XB/T 610.3-2007 Chemical analysis methods for samarium cobalt permanent magnet alloy powder- Determination of oxygen content- Impulse-infrared absorption method
• XB/T 601.4-2008 Chemical analysis methods of lanthanum boride.Determination of carbon content.High frequency induced combustion infrared ray absorbs method
• XB/T 617.7-2014 Chemical analysis methods for neodymium iron boron alloy.Part 7:Determination of oxygen and nitrogen contents.Impulse-infrared and impulse-thermal conductance absorption method

BE-NBN, Low infrared absorption peak

• NBN-EN 24935-1992
• NBN-EN 27526-1992

FI-SFS, Low infrared absorption peak

• SFS 5412-1987

CO-ICONTEC, Low infrared absorption peak

• ICONTEC 3222-1991

PL-PKN, Low infrared absorption peak

• PN Z04108-04-1988 Air purity protection Tests for oils Determination of li?uid phase of oil in work places by infrared absorption spectrophotometry
• PN Z04018-03-1991 Air purity protection Tests for free crystalline silica content Determination of free crystalline silicain respirable dust in work places by infrared absorption spectrophotomery

Professional Standard - Geology, Low infrared absorption peak

• DZ/T 0279.25-2016 Methods of Analysis of Regional Geochemical Samples Part 25: Combustion for Carbon Determination - Infrared Absorption Spectroscopy

Standard Association of Australia （SAA）, Low infrared absorption peak

• AS/NZS 1050.16:1994 Methods for the analysis of iron and steel - Determination of sulfur content - Infrared absorption method after combustion in an induction furnace

Professional Standard - Petrochemical Industry, Low infrared absorption peak

• SH/T 0792-2007 Standard test method for 2,6-di-tert-butyl-p-cresol and 2,6-di-tert-butyl phenol in electrical insulating oil by infrared absorption

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