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carbon absorption peak

carbon absorption peak, Total:368 items.

In the international standard classification, carbon absorption peak involves: Ferrous metals, Materials for the reinforcement of composites, Aircraft and space vehicles in general, Testing of metals, Raw materials for rubber and plastics, Nuclear energy engineering, Ferroalloys, Analytical chemistry, Inorganic chemicals, Metalliferous minerals, Iron and steel products, Semiconducting materials, Materials for aerospace construction, Geology. Meteorology. Hydrology, Water quality, Refractories, Products of the chemical industry, Shipbuilding and marine structures in general, Environmental protection, Non-ferrous metals, Plastics, Non-metalliferous minerals, Vocabularies, Audio, video and audiovisual engineering, Mobile services, Air quality, Powder metallurgy, Radiation measurements, Medical equipment, Ceramics, Physics. Chemistry, Electricity. Magnetism. Electrical and magnetic measurements, Radiocommunications.

British Standards Institution (BSI), carbon absorption peak

• 13/30276628 DC BS EN 62704-3. Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Body from Wireless Communications Devices, 30 MHz - 6 GHz. Part 3. Specific Requirements for using the Finite-Difference Time-Domain (FDTD) Method for SAR C...
• 13/30276624 DC BS EN 62704-1. Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Body from Wireless Communications Devices, 30 MHz - 6 GHz. Part 1. General Requirements for using the Finite Difference Time Domain...
• BS PD ISO/TS 23034:2021 Nanotechnologies. Method to estimate cellular uptake of carbon nanomaterials using optical absorption
• 18/30347288 DC BS EN IEC/IEEE 62704-4. Recommended practice for determining the Peak Spatial Average Specific Absorption Rate (SAR) in the human body from wireless communications devices, 30 MHz - 6 GHz. Part 4. General requirements for using the Finite-Element Metho...
• BS 5293-10:2001 Sampling and testing carbon black for use in the rubber industry - Method for determination of iodine absorption number
• 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
• PD ISO/TS 23034:2021 Nanotechnologies. Method to estimate cellular uptake of carbon nanomaterials using optical absorption
• BS EN ISO 15349-2:2003 Unalloyed steel - Determination of low carbon content - 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)
• 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)
• BS 5293-11:1995 Sampling and testing carbon black for use in the rubber industry - Method for determination of specific surface area by nitrogen adsorption methods using single-point procedures
• BS EN 13649:2002 Stationary source emissions - Determination of the mass concentration of individual gaseous organic compounds - Activated carbon and solvent desorption method
• 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 IEC/IEEE 62704-4:2020 Determining the peak spatial-average specific absorption rate (SAR) in the human body from wireless communication devices, 30 MHz to 6 GHz. General requirements for using the finite element method for SAR calculations
• BS DD ISO/TS 10868:2011 Nanotechnologies. Characterization of singlewall carbon nanotubes using ultraviolet-visible-near infrared (UV-Vis-NIR) absorption spectroscopy
• PD ISO/TS 10868:2017 Tracked Changes. Nanotechnologies. Characterization of single-wall 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
• BS EN/IEEE 62704-2:2017 Determining the peak spatial-average specific absorption rate (SAR) in the human body from wireless communications devices, 30 MHz to 6 GHz. Specific requirements for finite difference time domain (FDTD) modelling of exposure from vehicle mounted antennas
• BS IEC/IEEE 62704-1:2017 Determining the peak spatial-average specific absorption rate (SAR) in the human body from wireless communications devices, 30 MHz to 6 GHz - General requirements for using the finite-difference time-domain (FDTD) method for SAR calculations
• BS IEC/IEEE 62704-3:2017 Determining the peak spatial-average specific absorption rate (SAR) in the human body from wireless communications devices, 30 MHz to 6 GHz - Specific requirements for using the finite difference time domain (FDTD) method for SAR calculations…
• 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)

Korean Agency for Technology and Standards (KATS), carbon 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 D 2712-2008 Evaluation of content of single-walled carbon nanotube using UV-VIS-NIR absorption spectroscopy
• KS D 2717-2008 Evaluation of metallic/semiconducting ratio of single-walled carbon nanotube soots using UV-VIS－NIR absorption spectroscopy
• 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 2712-2008(2018) Evaluation of content of single-walled carbon nanotube using UV-VIS-NIR absorption spectroscopy
• 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 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 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 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 7524-2012(2017) Nickel, ferronickel and nickel alloys－Determination of carbon content－Infra-red absorption method after induction furnace combustion
• KS M ISO 4656-1:2012 Rubber compounding ingredients－Carbon black－Determination of dibutyl phthalate absorption number－Part 1：Method using absorptometer
• 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 D 2717-2008(2018) Evaluation of metallic/semiconducting ratio of single-walled carbon nanotube soots using UV-VIS－NIR absorption spectroscopy
• 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 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 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 M ISO 8658:2003 Carbonaceous materials for use in the production of aluminium－Green and calcined coke－Determination of trace elements by flame atomic absorption spectroscopy
• 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
• KS A ISO 9891:2012 Determination of carbon content in uranium dioxide powder and sintered pellets－High-frequency induction furnace combustion－Titrimetric/coulometric/infrared absorption methods
• KS M ISO 8658-2003(2018)

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

• GJB 8040-2013 Specification for carbon dioxide absorbent
• GJB 10271-2021 Specification for lithium hydroxide carbon dioxide absorption devices for submarines

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

• GB/T 31292-2014 Carbon fibre.Determination of carbon content.Combustion absorption method
• GB/T 10304.4-1988 Determination of CaCO3.SrCO3 in cathode carbonates by atomic absorption spectrophotometry
• GB/T 4701.8-2009 Ferrotitanium-Determination of carbon content-The infrared absorption method
• GB/T 5059.7-2014 Ferromolybdenum.The determination of carbon content.Infrared absorption method
• GB/T 6730.51-2023 Iron ores—Determination of carbon content in carbonate—The caustic asbestos absorption gravimetric method
• GB/T 24583.4-2009 Vanadium.Nitrogen alloy.Determination carbon of 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 16555.1-1996 Chemical analysis for silicon carbide refractories--Determination of silicon carbide--Absorb gravimetric method
• GB/T 8705.1-1988 Methods for chemical analysis of ferrophosphorus--The infrared absorption method for the determination of carbon content
• GB/T 4701.8-1988 Methods for chemical analysis of ferrotitanium--The infrared absorption method for the determination of carbon content
• 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 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 10304.6-1988 Determination of Na in cathode carbonate by atomic absorption spectrophotometry
• GB/T 6730.51-1986 Methods for chemical analysis of iron ores--The caustic asbestos absorption gravimetric method for the determination of carbon content in carbonate
• GB 6730.51-1986 Method for chemical analysis of iron ore - Determination of carbon content in carbonate by caustic soda asbestos absorption gravimetric method
• GB/T 8654.8-1988 Methods for chemical analysis of manganese metal--The infrared absorption method for the determination of carbon 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 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 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 4699.4-1988 Methods for chemical analysis of silicochromium The infrared absorption method for the determination of carbon content
• 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 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 11064.12-1989 Lithium hydroxide monohydrate--Determination of carbon dioxide content--Absorption titrimetric method
• GB/T 30742-2014 Determination of total carbon in ocean atmospheric dry deposition.Nondispersive infrared absorption spectrometry
• 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 29652-2013 Direct reduced iron.Determination of carbon and sulfur.High frequency combustion with infrared absorption method
• GB/T 4699.4-2008 Ferrochromium and silicochromium. Determination of carbon content. Infrared absorption method and gravimetric method
• 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 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 4324.27-2012 Methods for chemical analysis of tungsten.Part 27:Determination of carbon content.High frequency combustion -infrared 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 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 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 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 20126-2006 Unalloyed Steel - Determination of low carbon content - Part 2: Infrared absorption method after combustion in an induction furnace (With preheating)
• GB/T 11064.5-1989 Lithium carbonate, lithium hydroxide monohydrate and lithium chloride--Determination of calcium content--Flame atomic absorption spectrometric method
• GB/T 11064.6-1989 Lithium carbonate, lithium hydroxide monohydrate and lithium chloride--Determination of magnesium content--Flame atomic absorption spectrometric 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 11064.4-1989 Lithium carbonate,lithium hydroxide monohydrate and lithium chloride--Determination of sodium and potassium contents--Flame atomic absorption spectrometric method
• GB/T 12690.13-1990 Neodymium and samarium--Determination of carbon content--High frequency--Infrared absorption method
• GB/T 3286.9-2014 Method for chemical analysis of limestone and dolomite.Part 9: The determination of carbon dioxide content.The caustic asbestos absorption gravimetric method
• GB/T 16484.10-2009 Chemical analysis methods of rare earth chloride and light rare earth carbonate.Part 10:Determination of manganese oxide content.Flame atomic absorption spectrometry
• GB/T 16484.11-2009 Chemical analysis methods of rare earth chloride and light rare earth carbonate.Part 11:Determination of lead oxide content.Flame atomic absorption spectrometry
• GB/T 16484.22-2009 Chemical analysis methods of rare earth chloride and light rare earth carbonate.Part 22:Determination of zinc oxide content.Flame atomic absorption spectrometry
• GB/T 16484.6-2009 Chemical analysis methods of rare earth chloride and light rare earth carbonate.Part 6:Determination of calcium oxide content.Flame atomic absorption spectrometry
• GB/T 16484.7-2009 Chemical analysis methods of rare earth chloride and light rare earth carbonate.Part 7:Determination of magnesium oxide content.Flame atomic absorption spectrometry
• GB/T 16484.8-2009 Chemical analysis methods of rare earth chloride and light rare earth carbonate.Part 8:Determination of sodium oxide content.Flame atomic absorption spectrometry
• GB/T 16484.9-2009 Chemical analysis methods of rare earth chloride and light rare earth carbonate.Part 9:Determination of nickel oxide content.Flame atomic absorption spectrometry
• GB/T 11064.17-1989 Lithium carbonate--Determination of iron and lead contents--Coprecipitation-flame atomic absorption spectrometric method
• GB/T 11064.5-2013 Methods for chemical analysis of lithium carbonate, lithium hydroxide monohydrate and lithium chloride.Part 5:Determination of calcium content.Flame atomic absorption spectrometric method
• GB/T 11064.6-2013 Methods for chemical analysis of lithium carbonate,lithium hydroxide monohydrate and lithium chloride.Part 6:Determination of magnesium content.Flame atomic absorption spectrometric method

ES-UNE, carbon absorption peak

• UNE-CEN/TR 17310:2019 Carbonation and CO2 uptake in concrete (Endorsed by Asociación Española de Normalización in April of 2019.)
• 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)

United States Navy, carbon absorption peak

• NAVY MIL-R-24159 A VALID NOTICE 1-1989 RECEPTACLE, CANISTER, CO2 ABSORBENT
• NAVY MIL-R-24159 A-1983 RECEPTACLE, CANISTER, CO2 ABSORBENT
• NAVY MIL-P-24082 D-1989 PLANT, CARBON DIOXIDE REMOVAL, LIQUID ABSORBENT TYPE (MARK IIIB) (FOR SUBMARINES)

Association Francaise de Normalisation, carbon absorption peak

• FD P18-515*FD CEN/TR 17310:2019 Carbonation and CO2 uptake in concrete
• FD CEN/TR 17310:2019 Carbonatation et absorption du CO2 dans le béton
• NF T90-361:2022 Water quality - Determination of the absorbing power of universal absorbent materials - Water and hydrocarbon retention capacity
• NF T90-360:2022 Water quality - Determination of the absorbing power of hydrophobic floating absorbent materials - Water and hydrocarbon retention capacity
• 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 X20-361:1976 Gas analysis. Determination of carbon monoxide by absorption of a non dispersive infra-red radiation beam.
• NF T20-541:1986 Ammonium bicarbonate (ammonium hydrogencarbonate) for industrial use (including foodstuffs). Determination of lead content. Flame atomic absorption method.
• 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 X43-341:2002 Stationary source emissions - Determination of the mass concentration of individual gaseous organic compounds - Activated carbon and solvent desorption method.
• 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 A06-386-2*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)

CEN - European Committee for Standardization, carbon absorption peak

• PD CEN/TR 17310:2019 Carbonation and CO2 uptake in concrete

工业和信息化部, carbon absorption peak

• YS/T 1478-2021 Aluminum-based boron carbide neutron absorbing material
• YB/T 4566.8-2016 Determination of carbon content of vanadium iron nitride by infrared absorption method
• YB/T 4582.10-2017 Determination of carbon content in silicon ferronitride by infrared absorption method
• YB/T 4726.8-2021 Determination of carbon content in iron dust mud 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 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 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 540.3-2018 Methods for chemical analysis of vanadium Part 3: Determination of carbon content High frequency combustion infrared absorption method
• YD/T 3552-2019 Determine the average peak specific absorption rate (SAR) in the human body. Wireless communication equipment (30MHz~6GHz). Special requirements for calculating SAR using the finite difference time domain (FDTD) method.
• YD/T 3553-2019 Determining the spatial average peak specific absorption rate (SAR) in the human body Wireless communication equipment (30MHz ~ 6GHz) General requirements for calculating SAR using the finite difference time domain (FDTD) 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 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
• 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 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

Japanese Industrial Standards Committee (JISC), carbon absorption peak

• 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 1211-3 AMD 1:2013 Iron and steel.Determination of carbon content.Part 3: Infrared absorption method after combustion (Amendment 1)
• JIS G 1211-3 AMD 2:2017 Iron and steel -- Determination of carbon content -- Part 3: Infrared absorption method after combustion (Amendment 2)
• JIS K 6217-1:2001 Carbon black for rubber industry -- Fundamental characteristics -- Part 1: Determination of iodine adsorption number -- Titrimetric method
• JIS K 6217-1:2008 Carbon black for rubber industry -- Fundamental characteristics -- Part 1: Determination of iodine adsorption number (Titrimetric method)
• JIS K 6217-3:2001 Carbon black for rubber industry -- Fundamental characteristics -- Part 3: Determination of specific surface area -- CTAB adsorption methods
• JIS K 6217-4:2001 Carbon black for rubber industry -- Fundamental characteristics -- Part 4: Determination of dibutylphthalate absorption number
• JIS K 6217-2:2001 Carbon black for rubber industry -- Fundamental characteristics -- Part 2: Determination of specific surface area -- Nitrogen adsorption methods -- Single-point procedures
• JIS K 6217-2:2017 Carbon black for rubber industry -- Fundamental characteristics -- Part 2: Determination of specific surface area -- Nitrogen adsorption methods -- Single-point procedures
• JIS K 1201-5:2000 Sodium carbonate for industrial use -- Part 5: Determination of iron content -- 1,10-Phenanthroline molecular absorption spectrometry, Atomic absorption spectrometry, and inductively coupled plasma atomic emission spectrometry

API - American Petroleum Institute, carbon absorption peak

• API PUBL 34-33036-1987 STUDIES ON THE ABSORPTION OF INHALED HYDROCARBON VAPORS Final Report
• API PUBL 36-31430-1989 STUDIES ON THE ABSORPTION@ TISSUE EQUILIBRIA AND EXCRETION ROUTES OF INHALED HYDROCARBON VAPORS AND THEIR METABOLITES

YU-JUS, carbon absorption peak

• JUS H.F8.191-1986 Gases. Determination of carbon monoxide. Absorption method
• JUS H.F8.151-1986 Gases. Determination of carbon dioxid content. Absorption method
• JUS C.A1.703-1987 Nickel metal, ferronickel and nickel alloys. Determination of carbon content. Infra-red absorption met-hod after induction fumace combustion
• JUS H.G8.162-1984 Reagents. Sodium carbonate anhydrous and sodium carbonate decahydrate. Detarmination of calcium and magnesium contents. Flame atomic absorption method.

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

• ASTM D1510-16 Standard Test Method for Carbon Black&x2014;Iodine Adsorption Number
• ASTM D5160-95(2003) Standard Guide for Gas-Phase Adsorption Testing of Activated Carbon
• ASTM D5160-95(2008) Standard Guide for Gas-Phase Adsorption Testing of Activated Carbon
• ASTM D2414-14 Standard Test Method for Carbon Black—Oil Absorption Number (OAN)
• ASTM D2414-16 Standard Test Method for Carbon Black&x2014;Oil Absorption Number (OAN)
• ASTM D3493-16 Standard Test Method for Carbon Black&x2014;Oil Absorption Number of Compressed Sample (COAN)
• ASTM D3493-09 Standard Test Method for Carbon Black-Oil Absorption Number of Compressed Sample (COAN)
• ASTM D2414-09a Standard Test Method for Carbon Blackx2014;Oil Absorption Number (OAN)
• ASTM E2050-99 Standard Test Method for Determination of Total Carbon in Mold Powders by Combustion-Infrared Absorption Method
• 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 D3686-95 Standard Practice for Sampling Atmospheres to Collect Organic Compound Vapors (Activated Charcoal Tube Adsorption Method)
• ASTM E1852-08 Standard Test Method for Determination of Low Levels of Antimony in Carbon and Low-Alloy Steel by Graphite Furnace Atomic Absorption Spectrometry
• ASTM E1852-96e1 Standard Test Method for Determination of Low Levels of Antimony in Carbon and Low-Alloy Steel by Electrothermal Atomic Absorption Spectrometry
• ASTM E1852-96(2001) Standard Test Method for Determination of Low Levels of Antimony in Carbon and Low-Alloy Steel by Electrothermal Atomic Absorption Spectrometry
• ASTM E1852-19 Standard Test Method for Determination of Low Levels of Antimony in Carbon and Low-Alloy Steel by Graphite Furnace Atomic Absorption Spectrometry
• ASTM E1852-13 Standard Test Method for Determination of Low Levels of Antimony in Carbon and Low-Alloy Steel by Graphite Furnace Atomic Absorption Spectrometry

Professional Standard - Nuclear Industry, carbon absorption peak

• 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

International Organization for Standardization (ISO), carbon absorption peak

• ISO/TS 23034:2021 Nanotechnologies - Method to estimate cellular uptake of carbon nanomaterials using optical absorption
• 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 7524:2020 Ferronickels — Determination of carbon 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 7110:1985 Ammonium bicarbonate (Ammonium hydrogen- carbonate) for industrial use (including foodstuffs); Detetrmination of lead content; Flame atomic absorption method
• 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 15350:2000 Steel and iron - Determination of total carbon and sulfur content - Infrared absorption method after combustion in an induction furnace (routine method)
• 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 8658:1997 Carbonaceous materials for use in the production of aluminium - Green and calcined coke - Determination of trace elements by flame atomic absorption spectroscopy
• 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/CD 27927:2011 Carbon dioxide capture, transportation and geological storage — Key performance parameters and characterization methods of absorption liquids for post-combustion CO2 capture
• ISO 9891:1994 Determination of carbon content in uranium dioxide powder and sintered pellets - High-frequency induction furnace combustion - Titrimetric/coulometric/infrared absorption methods

Professional Standard - Ferrous Metallurgy, carbon absorption peak

• YB/T 5339-2015 Ferrophosphorus.Determination of carbon 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 5339-2006 Ferrophosphorus Chemical Analysis Method Infrared Absorption Method Determination of Carbon 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 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 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 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

国家市场监督管理总局、中国国家标准化管理委员会, carbon 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 24583.4-2019 Vanadium-nitrogen—Determination of carbon content—Infrared absorption method
• 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

US-FCR, carbon absorption peak

• FCR NE-F-11-2T-1985 ANALYTICAL CHEMISTRY METHODS FOR BORON CARBIDE ABSORBER MATERIAL

AENOR, carbon absorption peak

• UNE 77102:2014 Evaluation of the potential efficacy of hidrocarbon absrobents in marine environment. Absorbents efficacy test
• 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 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)

Professional Standard - Ocean, carbon 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

German Institute for Standardization, carbon absorption peak

• DIN CEN/TR 17310:2020-04 Carbonation and CO<(Index)2> uptake in concrete; German version CEN/TR 17310:2019
• 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 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 15349-2:2003 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 ISO 8658:2003 Testing of carbonaceous materials - Green and calcined coke - Determination of trace elements by flame atomic absorption spectroscopy (ISO 8658:1997)
• DIN 50438-2:1982 Testing of materials for semiconductor technology; determination of impurty content in silicon by infrared absorption; carbon
• 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 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
• 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 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)

Professional Standard - Non-ferrous Metal, carbon 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 281.15-1994 Cobalt - Determination of carbon content - Infra-red absorption method after high frequency induction furnace combustion
• 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 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 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 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 281.14-2011 Methods for chemical analysis of cobalt.Part 14:Determination of carbon content.Infra-red absorption method after high frequency induction furnace combustion
• YS/T 1593.1-2023 Methods for chemical analysis of crude lithium carbonate—Part 1：Determination of lithium content—Flame atomic absorption spectrometry
• 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 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 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

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, carbon absorption peak

• GB/T 35371-2017 Oxygen supplying and carbon dioxide absorbing for human occupied vehicles
• 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

RU-GOST R, carbon absorption peak

• GOST 25699.4-1990 Carbon black for rubber industry. Method for determination of specific surface area by inert gas adsorption
• GOST 17038.2-1979 Ionizing-radiation scintillation detectors. Method for measurement of detector light yield of full absorption peak or compton distribution edge
• 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 8658-2017 Carbonaceous materials for use in the production of aluminium. Green and calcined coke. Determination of trace elements by flame atomic absorption spectroscopy
• 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

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

• T/CIECCPA 027-2023 Pre-treatment equipment for carbon dioxide capture from flue gas by chemical absorption method
• T/CMES 08006-2020 Determination of Sulfur Content in Carburizers High Frequency Combustion Infrared Absorption Method
• T/CAEPI 53-2022 Technical requirements for solvent recovery unit by activated carbon fiber adsorption - steam desorption
• T/CMES 08005-2020 Determination of Carbon and Sulfur Content in Ferrochromium Nitride High Frequency Combustion Infrared 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/CSTM 00013-2019 Cast iron—Determination of non-combined carbon content—infrared absorption method after combustion in an induction furnace
• 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/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

PL-PKN, carbon absorption peak

• PN G08011 ArkusZ04-1972 Insulating oxygen apparatus Connec?or o? carbon dioxide absorber Daemalds
• PN C82055-10-1992 Test methods of pressed carbon products Determination of real and apparent density, absorbability and total and open porosity

ASHRAE - American Society of Heating@ Refrigerating and Air-Conditioning Engineers@ Inc., carbon absorption peak

• ASHRAE PH-97-12-1-1997 Modeling of Absorption/Compression Cycles Using Working Pair Carbon Dioxide/Acetone
• ASHRAE 3909-1995 Inorganic Fluoride Uptake as a Measure of Relative Compatibility of Molecular Sieve Desiccants with Fluorocarbon Refrigerants

American National Standards Institute （ANSI), carbon absorption peak

• ANSI/ASTM D3349:2012 Test Method for Absorption Coefficient of Ethylene Polymer Material Pigmented with Carbon Black
• ANSI/IEEE 1528:2003 Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques
• ANSI/IEEE 1528a:2005 Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques - Amendment 1: Include CAD File for Human Head Model (SAM Phantom)

海关总署, carbon absorption peak

• SN/T 5347.1-2021 Determination of carbon and sulfur content in chromium ore by high frequency infrared absorption method

Danish Standards Foundation, carbon absorption peak

• DS/EN ISO 9556:2001 Steel and iron - Determination of total carbon content - Infrared absorption method after combustion in an induction furnace
• DS/ISO/TS 23034:2021 Nanotechnologies – Method to estimate cellular uptake of carbon nanomaterials using optical absorption
• 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)
• DS/ISO/TS 10868:2011 Nanotechnologies - Characterization of single-wall carbon nanotubes using ultraviolet-visible-near infrared (UV-Vis-NIR) absorption spectroscopy
• 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/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 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)

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

• DB41/T 1569-2018 Determination of Fixed Carbon Content in Graphite Ore High Frequency Combustion Infrared Absorption Method

未注明发布机构, carbon absorption peak

• BS EN ISO 9556:2001(2009) Steel and iron — Determination oftotal carbon content — Infrared absorption method after combustion in an induction furnace
• STANAG 1411 NORME DE QUANTIFICATION DES CARACT?RISTIQUES DES ABSORBANTS GRANULAIRES DE DIOXYDE DE CARBONE (CO2) UTILIS?S DANS DES APPLICATIONS DE PLONG?E ET HYPERBARES (ED 3; To obtain please contact your national Defense Standardization Office or the NATO Standardiz

KR-KS, carbon absorption peak

• KS D 2712-2008(2023) Evaluation of content of single-walled carbon nanotube using UV-VIS-NIR absorption spectroscopy
• 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 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)
• KS D 2717-2008(2023) Evaluation of metallic/semiconducting ratio of single-walled carbon nanotube soots using UV-VIS－NIR absorption spectroscopy
• KS M ISO 8658-2003(2023)

Professional Standard - Electron, carbon absorption peak

• SJ 3249.2-1989 Methods of measurement for Carbon concentration of semi-insulation Gallicem arsenide single crystal by infra-red absorption

Professional Standard - Environmental Protection, carbon 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/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 917-2017 Determination of Gaseous Mercury in Exhaust Gases from Stationary Pollution Sources Activated Carbon Adsorption/Pyrolysis Atomic Absorption Spectrophotometry

Professional Standard - Coal, carbon absorption peak

• MT 454-1995 Specifications for carbon dioxide absorbent calcium hydroxide used in compressed oxygen respirators and compressed oxygen self-rescuers

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

• DB51/T 2042-2015 Determination of Carbon and Sulfur Content in Vanadium Aluminum Alloys High Frequency Induction Combustion-Infrared Absorption Method

North Atlantic Treaty Organization Standards Agency, carbon absorption peak

• STANAG 1411-2006 STANDARD TO QUANTIFY THE CHARACTERISTICS OF CARBON DIOXIDE (CO2) ABSORBENT MATERIALS FOR DIVING APPLICATIONS

Lithuanian Standards Office , carbon absorption peak

• 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 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)
• 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)

Institute of Electrical and Electronics Engineers (IEEE), carbon absorption peak

• IEEE P1528/D6, March 2013 IEEE Draft Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques
• IEEE Std 1528-2003 IEEE Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques
• IEEE Std 1528-2013 IEEE Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques - Redline

Indonesia Standards, carbon absorption peak

• SNI 06-6989.44-2005 Water and waste water - Part 44: Test methods of zinc (Zn) content with atomic absorption spectrophotometers (AAS) by carbon stoves
• SNI 06-6989.36-2005 Water and waste water - Part 36: Test methods of aluminium (Al) content with atomic absorption spectrophotometers (AAS) by carbon stoves
• SNI 6989.66-2009
• SNI 6989.65-2009

BE-NBN, carbon absorption peak

• NBN T 03-086-1988 Ammonium bicarbonate (Ammonium hydrogencarbonate) for industrial use (including foodstuffs) -Determination of lead content - Flame atomic absorption method

European Committee for Standardization (CEN), carbon absorption peak

• EN ISO 9556:2001 Steel and Iron - Determination of Total Carbon Content - Infrared Absorption Method After Combustion in an Induction Furnace
• 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 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)

NATO - North Atlantic Treaty Organization, carbon absorption peak

• STANAG 1411-2000 Standard to Quantify the Characteristics of Carbon Dioxide (CO2) Absorbent Material for Diving Application (ED 1; To obtain please contact your national Defense Standardization Office or the NATO Standardization Office website: http:/ so.nato.int so@ Phon
• ADIVP-03-2013 STANDARD TO QUANTIFY THE CHARACTERISTICS OF GRANULAR CARBON DIOXIDE (CO2) ABSORBENT MATERIAL FOR DIVING AND HYPERBARIC APPLICATIONS (ED A@ Ver 1; To obtain please contact your national Defense Standardization Office or the NATO Standardization Office webs

Professional Standard - Post and Telecommunication, carbon absorption peak

• YD/T 4196-2023 Determination of spatial average peak specific absorption rate (SAR) in the human body General requirements for wireless communication equipment (30MHz-6GHz) Finite element method (FEM) calculation of SAR

IT-UNI, carbon absorption peak

• UNI 4158-1959
• 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)

Professional Standard - Aviation, carbon 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 5220.3-2008 Methods for chemical analysis of super alloys. Part 3: Determination of carbon content by high frequency induction combustion-infrared absorption method

Professional Standard - Commodity Inspection, carbon absorption peak

• SN/T 2413-2010 Determination of total carbon and sulfur contents of silicon metal for import and export-Infrared absorption spectromentry
• SN/T 3321.2-2013 Limestone and dolomite.Part 2:Determination of carbon and sulfur content.High frequency combustion with infrared absorption method

Professional Standard - Rare Earth, carbon 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 601.4-2008 Chemical analysis methods of lanthanum boride.Determination of carbon content.High frequency induced combustion infrared ray absorbs method

IEEE - The Institute of Electrical and Electronics Engineers@ Inc., carbon absorption peak

• IEEE 1528 ERTA-2013 Errata to IEEE Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques
• IEEE P62704-4-2019 DETERMINING THE PEAK SPATIAL-AVERAGE SPECIFIC ABSORPTION RATE (SAR) IN THE HUMAN BODY FROM WIRELESS COMMUNICATION DEVICES@ 30 MHZ TO 6 GHZ – Part 4: General requirements for using the finite-element method for SAR calculations

ZA-SANS, carbon absorption peak

• SANS 584:2008 Soda-lime granules (with indicator) for use during anaesthesia for carbon dioxide absorption

FI-SFS, carbon absorption peak

• SFS 5412-1987

Professional Standard - Geology, carbon absorption peak

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

International Electrotechnical Commission (IEC), carbon absorption peak

• IEC TS 62607-2-5:2022 Nanomanufacturing - Key control characteristics - Part 2-5: Carbon nanotube materials - Mass density of vertically-aligned carbon nanotubes: X-ray absorption method
• IEC/IEEE 62704-4-2020 Determining the peak spatial-average specific absorption rate (SAR) in the human body from wireless communication devices, 30 MHz to 6 GHz - Part 4: General requirements for using the finite element m
• IEC/IEEE 62704-4:2020 Determining the peak spatial-average specific absorption rate (SAR) in the human body from wireless communication devices, 30 MHz to 6 GHz - Part 4: General requirements for using the finite element m
• IEC/IEEE 62704-1-2017 Determining the peak spatial-average specific absorption rate (SAR) in the human body from wireless communications devices, 30 MHz？to 6 GHz - Part 1: General requirements for using the finite differen

CZ-CSN, carbon absorption peak

• CSN 72 6026 Cast.3-1990 Refractories. Magnesite and magnesi- te-lime materials. Determination of Si- licon dioxide. Gravimetric, photome- tric and atomic absorption methods.

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