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How to analyze the spectrum

How to analyze the spectrum, Total:500 items.

In the international standard classification, How to analyze the spectrum involves: Optics and optical measurements, Non-ferrous metals, Standardization. General rules, Ferrous metals, Fibre optic communications, Non-metalliferous minerals, Products of non-ferrous metals, Powder metallurgy, Analytical chemistry, Education, Electronic components in general, Information sciences. Publishing, Particle size analysis. Sieving, Testing of metals, Non-destructive testing, Ferroalloys, Metalliferous minerals, Iron and steel products, Refractories, Vocabularies, Woodworking equipment, Construction materials, Natural gas, Nuclear energy engineering, Optoelectronics. Laser equipment, Special measuring equipment for use in telecommunications, Products of the chemical industry, Reinforced plastics, Paint ingredients, Fuels, Coals, Lubricants, industrial oils and related products, Environmental protection, Water quality, Test conditions and procedures in general, Jewellery, Pipeline components and pipelines, Protection against fire, Surface treatment and coating, Products of the textile industry, Electrical wires and cables.


Taiwan Provincial Standard of the People's Republic of China, How to analyze the spectrum

  • CNS 14341-1999 Optical spectrum analyzer
  • CNS 12416-1988 Genenral Rules for Emission Spectroscopic Analysis
  • CNS 14896-14-2005 Titanium - Method for atomic emission spectrometric analysis
  • CNS 12416-2006 General rules for atomic emission spectrometry
  • CNS 14896.14-2005 Titanium - Method for atomic emission spectrometric analysis
  • CNS 10006-1984 Method for Photoelectric Emission Spectrochemical Analysis of Iron And Steel
  • CNS 9705-1984 General Rules for Emission-Spectroscopic Analysis of Iron and Steel
  • CNS 10503-1984 Emission-Spectroscopic Analysis for Pig Iron and Cast Iron
  • CNS 9706-1984 General Rules for Photoelectric Emission Spectrochemical Analysis of Iron and Steel
  • CNS 13921-1997 Method of atomic emission spectrophotoelectric analysis for die casting zinc alloy
  • CNS 11209-1995 General Rules for Chemical Analysis by Atomic Absorption Spectrophotometry
  • CNS 10005-1984 General Rules for Photoelectric Emission Spectrochemical Analysis of Metallic Materials
  • CNS 12126-1987 Method of Chemical Analysis by Atomic Absorption Spectrophotometry for Copper and Copper Alloys
  • CNS 13388-1994 Methods for Inductively Coupled Plasma Emission Spectrochemical Analysis of Steel
  • CNS 11071-1984 Emission-Spectroscopic Analysis for Carbon Steel and Low Alloy Steel
  • CNS 11206-2002 Iron and steel─Methods for atomic absorption spectrometric analysis
  • CNS 12013-1987 Method of Test for Lead in Gasoline by Atomic Absorption Spectrometry
  • CNS 12788-1990 Method of X-ray Fluorescence Spectrometric Analysis of Refractory Bricks and Refractory Mortars

RO-ASRO, How to analyze the spectrum

U.S. Air Force, How to analyze the spectrum

RU-GOST R, How to analyze the spectrum

BR-ABNT, How to analyze the spectrum

ZA-SANS, How to analyze the spectrum

European Committee for Standardization (CEN), How to analyze the spectrum

  • CEN EN 62129-2006 Calibration of optical spectrum analyzers
  • CEN EN 62129-2006_ Calibration of optical spectrum analyzers
  • EN 14726:2005 Aluminium and aluminium alloys - Chemical analysis - Guideline for spark optical emission spectrometric analysis
  • PREN 14726-2003 Aluminium and aluminium alloys - Chemical analysis - Guideline for spark optical emission spectrometric analysis
  • CEN EN 14726-2005 Aluminium and aluminium alloys — Chemical analysis — Guideline for spark optical emission spectrometric analysis
  • EN 12019:1997 Zinc and Zinc Alloys - Optical Emission Spectrometric Analysis
  • EN 14242:2004 Aluminium and aluminium alloys - Chemical analysis - Inductively coupled plasma optical emission spectral analysis
  • CEN/TR 10354:2011 Chemical analysis of ferrous materials - Analysis of ferro-silicon - Determination of Si and Al by X-ray fluorescence spectrometry
  • DD ENV 12908-1997 Lead and lead alloys - Analysis by Optical Emission Spectrometry (OES) with spark excitation

Association Francaise de Normalisation, How to analyze the spectrum

  • NF C93-845:2006 Calibration of optical spectrum analyzers.
  • NF X11-672:1996 Particle size analysis. Photon correlation spectroscopy.
  • NF A06-590:2005 Aluminium and aluminium alloys - Chemical analysis - Guideline for spark optical emission spectrometric analysis.
  • NF A06-840:1998 Zinc and zinc alloys. Optical emission spectrometric analysis.
  • NF A07-510X2:1975 ANALYSIS OF NON-ALLOYED ALUMINIUM BY EMISSION SPECTROGRAPHY.
  • NF A07-510:1971 Analysis of non-alloyed aluminium by emission spectrography.
  • NF A07-515:1971 Analysis of aluminium copper alloys by emission spectrography.
  • NF A07-500:1979 Analysis of aluminium and its alloys by emission spectrometry.
  • NF X21-003:2006 Microbeam analysis - Electron probe microanalysis - Guidelines for qualitative point analysis by wavelength dispersive X-ray spectrometry.
  • NF X21-071:2011 Surface Chemical Analysis - X-ray photoelectron Spectroscopy - Guidelines for analysis.
  • NF A06-001:1979 Analysis of light metals by spectrography. Processing of test results. Statistical interpretation.
  • NF A06-012*NF EN 14242:2005 Aluminium and aluminium alloys - Chemical analysis - Inductive coupled plasma-optical emission spectrometric method
  • NF X21-061:2008 Surface chemical analysis - Auger electron spectroscopy and X-ray photoelectron spectroscopy - Determination of lateral resolution.
  • NF EN 15079:2015 Cuivre et alliages de cuivre - Analyse par spectrométrie d'émission optique à étincelles (SEO-E)
  • NF X21-013*NF ISO 11938:2012 Microbeam analysis - Electron probe microanalysis - Methods for elemental-mapping analysis using wavelength-dispersive spectroscopy.
  • NF C93-846-1*NF EN 62129-1:2016 Calibration of wavelength/optical frequency measurement instruments - Part 1 : optical spectrum analyzers
  • NF ISO 14707:2006 Analyse chimique des surfaces - Spectrométrie d'émission optique à décharge luminescente - Introduction à son emploi
  • NF A07-520:1971 Analysis of aluminium silicon and aluminium-silicon-copper alloys by emission spectrography.
  • NF A07-830:1973 Zinc for galvanizing purposes. Technical specification for emission spectral analysis.
  • NF A01-811:1975 Zinc ingots. Selection and preparation of samples for spectrographic analysis.
  • NF ISO 4735:2002 Huiles essentielles de Citrus - Détermination de la valeur CD par analyse spectrométrique dans l'ultraviolet

Korean Agency for Technology and Standards (KATS), How to analyze the spectrum

  • KS M 0028-2009(2019) General rules for light emission spectrochemical analysis
  • KS D 1681-2003 Method for emission spectrochemica1 analysis of aluminium ingot
  • KS D 1684-2008 Methods for emission spectrographic analysis of magnesium ingot
  • KS D 1682-2008 Methods for emission spectrochemical analysis of lead ingot
  • KS D 2086-2004 Method for atomic emission spectrometric analysis of titanium
  • KS D 2518-2005 Methods for photoelectric emission spectrochemical analysis of cadmium metal
  • KS C 6918-1995 Test methods of fiber-optic spectrum analyzer
  • KS D ISO 3815-2002(2006) Zinc and zinc alloys-Spectrographic analysis
  • KS D 2518-1982 Methods for photoelectric emission spectrochemical analysis of cadmium metal
  • KS D 1654-1993 General Rules for X-ray Fluorescence Spectrometric Analysis of Iron and Steel
  • KS D 1682-2020 Method for photoelectric emission spectrochemical analysis of lead metal
  • KS D 1654-2003(2016) General rules for X-ray fluorescence spectrometric analysis of iron and steel
  • KS D 2710-2019 Methods for X-ray fluorescence spectrometric analysis of ferroniobium
  • KS D ISO 3815:2011 Zinc and zinc alloys-Spectrographic analysis
  • KS D 2558-1995 Method for emission spectrographic analysis of tantalum
  • KS D 2553-2015 Tantalum-Method for atomic absorption spectrometric analysis
  • KS D 1684-1993 Methods for emission spectrographic analysis of magnesium ingot
  • KS D 1682-1993 Methods for emission spectrochemical analysis of lead ingot
  • KS D 1684-1985 Methods for emission spectrographic analysis of magnesium ingot
  • KS D 1680-2008 General rules for photographic emission spectrochemical analysis of metal materials
  • KS D 2518-2015 Methods for photoelectric emission spectrochemical analysis of cadmium metal
  • KS D 1655-1993 Method for X-Ray Fluorescence Spectrometric Analysis of Iron and Steel
  • KS M 0017-1995 General rules for X-ray fluorescence spectrometric analysis
  • KS D 1898-2019 Copper alloys —Methods for X-ray fluorescence spectrometric analysis
  • KS D 2569-2005 Methods for ICP emission spectrometric analysis of tantalum
  • KS D 2568-2008 Tantalum-Method for atomic absorption spectrometric analysis
  • KS D 2569-2016 Methods for ICP emission spectrometric analysis of tantalum
  • KS D 2553-2015(2020) Tantalum-Method for atomic absorption spectrometric analysis
  • KS E 3030-2007(2012) Atomic absorption spectrochemical analysis for iron ores
  • KS D 2568-2019 Tantalum-Method for atomic absorption spectrometric analysis
  • KS D 2569-2016(2021) Methods for ICP emission spectrometric analysis of tantalum
  • KS E 3030-1982 Atomic absorption spectrochemical analysis for iron ores
  • KS M 0012-2009(2019) General rules for molecular absorptiometric analysis
  • KS L 3316-2014 Method for X-ray fluorescence spectrometric analysis of refractory products
  • KS D 1686-2011(2021) Method for x-ray fluorescence spectrometric analysis of ferroalloys
  • KS L 3316-2014(2019) Method for X-ray fluorescence spectrometric analysis of refractory products
  • KS D 2518-2015(2020) Methods for photoelectric emission spectrochemical analysis of cadmium metal
  • KS L 3316-1998 Method for X-ray fluorescence spectrometric analysis of refractory products
  • KS L 3316-1988 Method for X-ray fluorescence spectrometric analysis of refractory products
  • KS D 1659-2008 Methods for atomic absorption spectrophotometric analysis of iron and steel
  • KS M 0016-1995 General rules for atomic absorption spectrochemical analysis
  • KS D 1681-1993 Method for emission spectrochemical analysis of aluminium ingot
  • KS D 2086-1993 Methods for emission spectrochemical analysis of titanium
  • KS M 0016-2010(2020) General rules for atomic absorption spectrochemical analysis
  • KS C 6918-1995(2020) Test methods of fiber-optic spectrum analyzer
  • KS D 1684-2008(2018) Methods for emission spectrographic analysis of magnesium ingot
  • KS D 2086-2019 Methods for atomic emission spectrometric analysis of titanium
  • KS D 1650-1993 General rules for photoelectric emission spectrochemical analysis of metal materials
  • KS D ISO 22309-2011(2016) Microbeam analysis-Quantitative analysis using energy-dispersive spectrometry(EDS)
  • KS D 1899-2003 Methods for emission spectrochemical analysis of electrolytic cathode copper
  • KS D 1683-1993 Method for emission spectrochemical analysis of silver ingot
  • KS D 1681-2018 Method for emission spectrochemical analysis of aluminium ingot
  • KS M 0032-2009(2019) General rules for ICP emission spectrochemical analysis
  • KS E 3076-2017 Methods for X-ray fluorescence spectrometric analysis of silica stone and silica sand
  • KS D 1650-2008 General rules for photoelectric emission spectrochemical analysis of metal materials
  • KS E 3076-2022 Methods for X-ray fluorescence spectrometric analysis of silica stone and silica sand
  • KS D 1899-2019 Methods for photoelectric emission spectrochemical analysis of electrolytic cathode copper
  • KS D 1929-2019 Methods for photoelectric emission spectrochemical analysis of die casting zinc alloys
  • KS D 1929-2004 Methods for photoelectric emission spectrochemical analysis of die casting zinc alloys
  • KS D 2597-1996(2021) Method for X-ray fluorescence spectrometric analysis of zirconium and zirconium alloys
  • KS D ISO 22309-2011(2021) Microbeam analysis-Quantitative analysis using energy-dispersive spectrometry(EDS)
  • KS D ISO 3816:2011 Zinc ingots-Selection and preparation of samples for spectrographic analysis
  • KS D 1685-1993 Methods for emission spectrochemical analysis of zinc metal
  • KS D 1658-1993 Emission-spectroscopic analysis for carbon steel and low alloy steel
  • KS D 1658-2003(2016) Emission-spectroscopic analysis for carbon steel and low alloy steel
  • KS D 1687-2007 Emission-spectroscopic analysis for pig iron and cast iron
  • KS D 1673-2007 Methods for inductively coupled plasma emission spectrochemical analysis of steel
  • KS D 1852-2005 Methods for photoelectric emission spectrochemical analysis of aluminium and aluminium alloys
  • KS L 3316-2009 Method for X-ray fluorescence spectrometric analysis of refractory brikcs and refractory mortars
  • KS E 3075-2002 Method for X-ray fluorescence spectrometric analysis of limestone and dolomite
  • KS D 1852-2015 Methods for photoelectric emission spectrochemical analysis of aluminium and aluminium alloys
  • KS D 1852-2020 Methods for optical emission spectrochemical analysis of aluminium and aluminium alloys
  • KS D 1655-2008(2019) Method for X-ray fluorescence spectrometric analysis of iron and steel
  • KS D ISO 3815-1-2006(2016) Zinc and zinc alloys-Part 1:Analysis of solid samples by optical emission spectrometry
  • KS D ISO 3815-1:2006 Zinc and zinc alloys-Part 1:Analysis of solid samples by optical emission spectrometry
  • KS E 3075-2017 Method for X-ray fluorescence spectrometric analysis of limestone and dolomite
  • KS D 1686-2011(2016) Method for x-ray fluorescence spectrometric analysis of ferroalloys
  • KS E 3075-2022 Method for X-ray fluorescence spectrometric analysis of limestone and dolomite
  • KS D 1679-1993 Methods for atomic absorption spectrometric analysis of aluminium and aluminium alloys
  • KS D ISO 3816-2002(2006) Zinc ingots-Selection and preparation of samples for spectrographic analysis
  • KS D ISO 22489:2012 Microbeam analysis-Electron probe microanalysis-Quantitative point analysis for bulk specimens using wavelength-dispersive x-ray spectroscopy

Professional Standard - Education, How to analyze the spectrum

  • JY/T 0571-2020 General Rules of Fluorescence Spectroscopy Analysis Methods
  • JY/T 0566-2020 General rules for atomic fluorescence spectrometry
  • JY/T 0573-2020 General Rules of Laser Raman Spectroscopy Analysis Method
  • JY/T 002-1996 General Rules for Laser Raman Spectroscopy Analysis Methods
  • JY/T 0572-2020 General Rules for Analytical Methods of Circular Dichroism Spectroscopy
  • JY/T 0565-2020 General rules for electrothermal atomic absorption spectrometry
  • JY/T 0570-2020 General rules for ultraviolet and visible absorption spectrometry

British Standards Institution (BSI), How to analyze the spectrum

  • BS EN 62129:2006 Calibration of optical spectrum analyzers
  • BS EN 12019:1998 Zinc and Zinc Alloys - Optical Emission Spectrometric Analysis
  • BS EN 14726:2005 Aluminium and aluminium alloys - Chemical analysis - Guideline for spark optical emission spectrometric analysis
  • BS ISO 13424:2013 Surface chemical analysis. X-ray photoelectron spectroscopy. Reporting of results of thin-film analysis
  • BS DD ISO/TS 25138:2011 Surface chemical analysis. Analysis of metal oxide films by glow-discharge optical-emission spectrometry
  • BS EN 62129-1:2016 Calibration of wavelength/optical frequency measurement instruments. Optical spectrum analyzers
  • PD ISO/TS 15338:2020 Surface chemical analysis. Glow discharge mass spectrometry. Operating procedures
  • BS ISO 11938:2012 Microbeam analysis. Electron probe microanalysis. Methods for elemental-mapping analysis using wavelength-dispersive spectroscopy
  • BS ISO 10810:2010 Surface chemical analysis. X-ray photoelectron spectroscopy. Guidelines for analysis
  • BS EN 14242:2004 Aluminium and aluminium alloys - Chemical analysis - Inductively coupled plasma optical emission spectral analysis
  • BS ISO 16962:2017 Surface chemical analysis. Analysis of zinc- and/or aluminium-based metallic coatings by glow-discharge optical-emission spectrometry
  • BS ISO 11505:2012 Surface chemical analysis. General procedures for quantitative compositional depth profiling by glow discharge optical emission spectrometry
  • BS ISO 18516:2006 Surface chemical analysis - Auger electron spectroscopy and X-ray photoelectron spectroscopy - Determination of lateral resolution
  • BS ISO 14707:2015 Surface chemical analysis. Glow discharge optical emission spectrometry (GD-OES). Introduction to use
  • BS ISO 14707:2000 Surface chemical analysis - Glow discharge optical emission spectrometry (GD-OES) - Introduction to use
  • 22/30444828 DC BS EN 14242. Aluminium and aluminium alloys. Chemical analysis. Inductively coupled plasma optical emission spectral analysis
  • BS ISO 10810:2019 Tracked Changes. Surface chemical analysis. X-ray photoelectron spectroscopy. Guidelines for analysis
  • BS EN 61290-5-1:2006 Optical amplifiers - Test methods - Reflectance parameters - Optical spectrum analyzer method
  • PD ISO/TS 18507:2015 Surface chemical analysis. Use of Total Reflection X-ray Fluorescence spectroscopy in biological and environmental analysis
  • PD ISO/TS 25138:2019 Tracked Changes. Surface chemical analysis. Analysis of metal oxide films by glow-discharge optical-emission spectrometry

Professional Standard - Electron, How to analyze the spectrum

  • SJ 2656-1986 Mothod of tungsten spectral analysis
  • SJ 2657-1986 Mothod of molybdeuum spectral analysis
  • SJ/Z 3206.10-1989 General rules for analysis of properties of emision spectrum
  • SJ/Z 3206.11-1989 General rules for analysis of quantities of emision spectrum
  • SJ/Z 1544-1979 Method for spectral analysis of Nickel-- Tungsten-Magnesium alloy
  • SJ/Z 3206.7-1989 Geneeral rules for preparation and sampling sample for emission spectrum analysis
  • SJ/Z 3206.1-1989 General requirements for laboratories involved with determination of emision spectrum
  • SJ/Z 3206.3-1989 Instrument and its performance requirements for determination of emision spectrum
  • SJ/Z 3206.8-1989 Geneeral rules for preparation of standard sample for spectrum analysis
  • SJ/Z 3206.12-1989 General rules for emission spectrum analysis for vacuum materials
  • SJ/Z 3206.13-1989 General rules for emision spectrum analysis for semiconductor materials

Professional Standard - Non-ferrous Metal, How to analyze the spectrum

  • YS/T 82-2006 Basis platinum as spectral analysis
  • YS/T 83-2006 Basis palladium as spectral analysis
  • YS/T 84-2006 Basis iridum as spectral analysis
  • YS/T 85-2006 Basis rhodium as spectral analysis
  • YS/T 82-1994 Platinum substrates for spectroscopic analysis
  • YS/T 83-1994 Palladium Matrix for Spectroscopic Analysis
  • YS/T 84-1994 Iridium matrix for spectroscopic analysis
  • YS/T 85-1994 Rhodium Matrix for Spectroscopic Analysis
  • YS/T 631-2007 Methods for analysis of zinc.The optical emission spectrometry
  • YS/T 558-2009 Methods for emission spectrum analysis of molybdenum
  • YS/T 559-2009 Methods for emission spectrum analysis of tungsten
  • YS/T 558-2006 Molybdenum Emission Spectroscopy Analysis Method
  • YS/T 559-2006 Tungsten Emission Spectroscopy Analysis Method
  • YS/T 464-2003 Methods for analytical of copper cathode-The optical emission spectrometry
  • YS/T 482-2005 Methods for analysis of copper and copper alloys-The atomic emission spectrometry
  • YS/T 1036-2015 Test method of optical emission spectrometric analysis of magnesium rare earth alloys
  • YS/T 361-2006 Determination of trace impurities in purity platinum by atomic emission spectrometric
  • YS/T 362-2006 Determination of trace impurities in purity palladium by atomic emission spectrometric
  • YS/T 363-2006 Determination of trace impurities in purity rhodium by atomic emission spectrometric
  • YS/T 364-2006 Determination of trace impurities in purity iridium by atomic emission spectrometric
  • YS/T 361-1994 Emission Spectral Analysis of Impurity Elements in Pure Platinum
  • YS/T 362-1994 Emission spectrum analysis of impurity elements in pure palladium
  • YS/T 363-1994 Emission spectrum analysis of impurity elements in pure rhodium
  • YS/T 364-1994 Emission Spectral Analysis of Impurity Elements in Pure Iridium
  • YS/T 536.7-2009 Methods for chemical analysis of bismuth.Determination of arsenic content.Atomic fluorescence spectrometric method
  • YS/T 536.11-2009 Methods for chemical analysis of bismuth.Determination of mercury content.Atomic fluorescence spectrometric method
  • YS/T 365-2006 Determination of trace impurities in high purity palladium by atomic emission spectrometric
  • YS/T 365-1994 Emission Spectrum Analysis of Impurity Elements in High Purity Platinum

International Electrotechnical Commission (IEC), How to analyze the spectrum

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, How to analyze the spectrum

  • GB/T 5123-1985 Nickel--Method of spectral analysis
  • GB/T 19627-2005 Particle size analysis-Photon correlation spectroscopy
  • GB/T 25481-2010 On-line ultraviolet/visible spectrum analyzer
  • GB/T 5871-1986 Method for spectrographic analysis of aluminium and its alloys
  • GB/T 16599-1996 Methods for emission spectrum analysis of molybdenum
  • GB/T 16600-1996 Methods for emission spectrum analysis of tungsten
  • GB/T 9259-1988 Terminology of emission spectochemical analysis
  • GB/T 6040-2002 General rules for infrared analysis
  • GB/T 42360-2023 Total Reflection X-ray Fluorescence Spectroscopic Analysis of Water for Surface Chemical Analysis
  • GB/T 11170-1989 Method for photoelectric emission spectroscopic analysis of stainless steel
  • GB/T 15337-1994 General rules for atomic absorption spectrometric analysis
  • GB/T 15337-2008 General rules for atomic absorption spectrometric analysis
  • GB/T 30704-2014 Surface chemical analysis.X-ray photoelectron spectroscopy.Guidelines for analysis
  • GB/T 5678-1985 The method for sampling cast alloys for spectrochemical analysis
  • GB/T 5678-2013 Sampling methods of spectrochemical analysis for cast alloys
  • GB/T 32199-2015 Infrared Spectroscopy Qualitative Analysis Technique General Rules
  • GB/T 32198-2015 General Rules for Quantitative Analysis Techniques of Infrared Spectroscopy
  • GB/T 7999-2000 Standard method for direct reading spectromertric analysis of aluminum and its alloys
  • GB/T 14203-1993 General rule for photoelectric emission spectroscopic analysis of iron, steel and alloy
  • GB/T 26042-2010 Methods for analysis of zinc and zinc alloys.The optical emission spectrometry
  • GB/T 29858-2013 Standard guidelines for molecular spectroscopy multivariate calibration quantitative analysis
  • GB/T 7999-2015 Optical emission spectrometric analysis method of aluminum and aluminum alloys
  • GB/T 7999-2007 Optical emission spectrometric analysis method of aluminum and aluminum alloys
  • GB/T 19500-2004 General rules for X-ray photoelectron spectroscopic analysis method
  • GB/T 16597-1996 Analytical methods of metallurgical products. General rule for X-ray fluorescence spectrometric methods
  • GB/T 19502-2004 Surface chemical analysis-Glow discharge optical emission spectrometry(GD-OSE)-Introduction to use
  • GB/Z 42520-2023 Guidelines for X-ray fluorescence spectrometric laboratory practice for the analysis of iron ores
  • GB/T 14203-2016 General rules for spark discharge atomic emission spectrometry
  • GB/T 29559-2013 Surface chemical analysis.Analysis of zinc and/or aluminium based metallic coatings by glow discharge optical emission spectrometry

Danish Standards Foundation, How to analyze the spectrum

  • DS/EN 62129/Corr. 1:2007 Calibration of optical spectrum analyzers
  • DS/EN 62129:2006 Calibration of optical spectrum analyzers
  • DS/EN 14726:2005 Aluminium and aluminium alloys - Chemical analysis - Guideline for spark optical emission spectrometric analysis
  • DS/EN 14242:2004 Aluminium and aluminium alloys - Chemical analysis - Inductively coupled plasma optical emission spectral analysis
  • DS/EN 15079:2007 Copper and copper alloys - Analysis by spark source optical emission spectrometry (S-OES)
  • DS/ENV 12908:1998 Lead and lead alloys - Analysis by optical emission spectrometry (OES) with spark excitation
  • DS/CEN/TR 10354:2012 Chemical analysis of ferrous materials - Analysis of ferro-silicon - Determination of Si and Al by X-ray fluorescence spectrometry

IN-BIS, How to analyze the spectrum

Japanese Industrial Standards Committee (JISC), How to analyze the spectrum

  • JIS C 6192:2008 Calibration of optical spectrum analyzers
  • JIS G 1256:1997 Iron and steel -- Method for X-ray fluorescence spectrometric analysis
  • JIS M 8205:2000 Iron ores -- X-ray fluorescence spectrometric analysis
  • JIS H 1123:2021 Method for photoelectric emission spectrochemical analysis of lead metal
  • JIS H 1691:1968 Method for spectrochemical analysis of tantalum
  • JIS H 1183:2007 Method for emission spectrochemical analysis of silver bullion
  • JIS H 1305:2005 Method for optical emission spectrochemical analysis of aluminium and aluminium alloys
  • JIS R 2216:2005 Methods for X-ray fluorescence spectrometric analysis of refractory products
  • JIS H 1630:1995 Method for atomic emission spectrometric analysis of titanium
  • JIS H 1683:2002 Tantalum -- Method for atomic absorption spectrometric analysis
  • JIS H 1630:1975 Method for atomic emission spectrometric analysis of titanium
  • JIS Z 8826:2005 Particle size analysis -- Photon correlation spectroscopy
  • JIS K 0214:2006 Technical terms for analytical chemistry (Chromatography part)
  • JIS C 6183-1:2019 Optical spectrum analyzers -- Part 1: Test methods
  • JIS K 0214:2013 Technical terms for analytical chemistry (Chromatography part)
  • JIS H 1123:1995 Method for photoelectric emission spectrochemical analysis of lead metal
  • JIS H 1631:2008 Titanium alloys -- Method for X-ray fluorescence spectrometric analysis
  • JIS G 1256 AMD 1:2010 Iron and steel -- Method for X-ray fluorescence spectrometric analysis (Amendment 1)
  • JIS G 1351:2006 Ferroalloys -- Method of X-ray fluorescence spectrometric analysis
  • JIS G 1202:1975 General rules on emission-spectroscopic analysis for iron and steel
  • JIS G 1257:1994 Iron and steel -- Methods for atomic absorption spectrometric analysis
  • JIS H 1163:1991 Method for photoelectric emission spectrochemical analysis of cadmium metal
  • JIS H 1292:1997 Method for X-ray fluorescence spectrometric analysis of copper and copper alloys
  • JIS H 1287:2015 Nickel and nickel alloys -- Methods for X-ray fluorescence spectrometric analysis
  • JIS G 1256 AMD 2:2013 Iron and steel.Method for X-ray fluorescence spectrometric analysis (Amendment 2)
  • JIS H 1113:2022 Method for photoelectric emission spectrochemical analysis of zinc metal
  • JIS H 1303:1976 Method for emission spectrochemical analysis of aluminium ingot
  • JIS H 1322:1976 Method for emission spectrochemical analysis of magnesium ingot
  • JIS K 0190:2010 Microbeam analysis -- Electron probe microanalysis -- Guidelines for qualitative point analysis by wavelength dispersive X-ray spectrometry
  • JIS H 1669:1990 Method for X-ray fluorescence spectrometric analysis of zirconium alloys
  • JIS H 1103:1995 Method for photoelectric emission spectrochemical analysis of electrolytic cathode copper
  • JIS H 1560:2016 Method for photoelectric emission spectrochemical analysis of die casting zinc alloys
  • JIS G 1351:1987 Method for X-ray fluorescence spectrometric analysis of ferroalloys
  • JIS H 1183 AMD 1:2012 Method for emission spectrochemical analysis of silver bullion (Amendment 1)
  • JIS G 1251:1976 Emission-spectroscopic analysis for pig iron and cast iron
  • JIS C 6183:1992 Test methods of fiber-optic spectrum analyzer
  • JIS K 0150:2009 Surface chemical analysis -- Analysis of zinc- and/or aluminium-based metallic coatings by glow-discharge optical-emission spectrometry
  • JIS H 1305:1976 Method for photoelectric emission spectrochemical analysis of aluminium and aluminium alloy
  • JIS R 2216:1995 Method for X-ray fluorescence spectrometric analysis of refractory bricks and refractory mortars
  • JIS Z 2611:1977 General rules for photoelectric emission spectrochemical analysis of metal materials
  • JIS H 1306:1992 Methods for atomic absorption spectrometric analysis of aluminium and aluminium alloys
  • JIS G 1257 AMD 2:2000 Iron and steel -- Methods for atomic absorption spectrometric analysis (Amendment 2)
  • JIS G 1253:2002 Iron and steel -- Method for spark discharge atomic emission spectrometric analysis

National Metrological Verification Regulations of the People's Republic of China, How to analyze the spectrum

工业和信息化部, How to analyze the spectrum

International Organization for Standardization (ISO), How to analyze the spectrum

  • ISO 13321:1996 Particle size analysis - Photon correlation spectroscopy
  • ISO 3815:1976 Zinc and zinc alloys; Spectrographic analysis
  • ISO 10810:2019 Surface chemical analysis — X-ray photoelectron spectroscopy — Guidelines for analysis
  • ISO 10810:2010 Surface chemical analysis - X-ray photoelectron spectroscopy - Guidelines for analysis
  • ISO 17470:2004 Microbeam analysis - Electron probe microanalysis - Guidelines for qualitative point analysis by wavelength dispersive X-ray spectrometry
  • ISO/TS 25138:2019 Surface chemical analysis — Analysis of metal oxide films by glow-discharge optical-emission spectrometry
  • ISO 16962:2017 Surface chemical analysis - Analysis of zinc- and/or aluminium-based metallic coatings by glow-discharge optical-emission spectrometry
  • ISO 18516:2006 Surface chemical analysis - Auger electron spectroscopy and X-ray photoelectron spectroscopy - Determination of lateral resolution
  • ISO 16962:2005 Surface chemical analysis - Analysis of zinc- and/or aluminium-based metallic coatings by glow-discharge optical-emission spectrometry
  • ISO 22309:2006 Microbeam analysis - Quantitative analysis using energy-dispersive spectrometry (EDS)
  • ISO/TS 25138:2010 Surface chemical analysis - Analysis of metal oxide films by glow-discharge optical-emission spectrometry
  • ISO 24417:2022 Surface chemical analysis — Analysis of metallic nanolayers on iron based substrates by glow-discharge optical-emission spectrometry
  • ISO 3816:1976 Zinc ingots; Selection and preparation of samples for spectrographic analysis
  • ISO 22489:2006 Microbeam analysis - Electron probe microanalysis - Quantitative point analysis for bulk specimens using wavelength-dispersive X-ray spectroscopy
  • ISO 22489:2016 Microbeam analysis - Electron probe microanalysis - Quantitative point analysis for bulk specimens using wavelength dispersive X-ray spectroscopy
  • ISO 13424:2013 Surface chemical analysis — X-ray photoelectron spectroscopy — Reporting of results of thin-film analysis

Standard Association of Australia (SAA), How to analyze the spectrum

  • AS 4549.1:1999 Particle size analysis - Photon correlation spectroscopy
  • AS 2347:1998 Zinc and zinc alloys - Sampling for chemical and spectrochemical analysis
  • AS ISO 19319:2006 Surface chemical analysis - Augur electron spectroscopy and X-ray photoelectron spectroscopy - Determination of lateral resolution, analysis area and sample area viewed by the analyser

German Institute for Standardization, How to analyze the spectrum

  • DIN ISO 13321:2004 Particle size analysis - Photon correlation spectroscopy (ISO 13321:1996)
  • DIN 51009:2013-11 Optical atomic spectral analysis - Principles and definitions
  • DIN 51009:2013 Optical atomic spectral analysis - Principles and definitions
  • DIN EN 62129:2007 Calibration of optical spectrum analyzers (IEC 62129:2006); German version EN 62129:2006
  • DIN 51009:2001 Optical atomic spectral analysis - Principles and definitions
  • DIN EN 14726:2005 Aluminium and aluminium alloys - Chemical analysis - Guideline for spark optical emission spectrometric analysis; English version of DIN EN 14726:2005
  • DIN EN 14242:2004 Aluminium and aluminium alloys - Chemical analysis - Inductively coupled plasma optical emission spectral analysis; German version EN 14242:2004
  • DIN 51820-1:1989 Testing of lubricants; analysis of greases by infrared spectrometry; taking and evaluating an infrared spectrum
  • DIN EN 15079:2015-07 Copper and copper alloys - Analysis by spark optical emission spectrometry (S-OES); German version EN 15079:2015
  • DIN 51820:2013-12 Testing of lubricants - Analysis of greases by infrared spectrometer - Recording and interpretation of an infrared spectrum / Note: Applies in conjunction with DIN 51451 (2004-09).
  • DIN ISO 11505:2018-02 Surface chemical analysis - General procedures for quantitative compositional depth profiling by glow discharge optical emission spectrometry (ISO 11505:2012)

CEN - European Committee for Standardization, How to analyze the spectrum

  • EN 14726:2019 Aluminium and aluminium alloys - Determination of the chemical composition of aluminium and aluminium alloys by spark optical emission spectrometry

Professional Standard - Ferrous Metallurgy, How to analyze the spectrum

  • YB/T 4177-2008 Determination of chemical composition in stag by X-ray fluorescence spectrometry
  • YB/T 4142-2006 Statistical rules for processing spectral analysis data

国家市场监督管理总局、中国国家标准化管理委员会, How to analyze the spectrum

  • GB/T 6040-2019 General rules for infrared analysis
  • GB/T 41072-2021 Surface chemical analysis—Electron spectroscopies—Guidelines for ultraviolet photoelectron spectroscopy analysis
  • GB/T 37969-2019 Standard guidelines for near infrared qualitative analysis
  • GB/T 39540-2020 Fast determination of shale gas composition—Laser Raman spectroscopy
  • GB/T 16597-2019 Analytical methods of metallurgical products—General rule for X-ray fluorescence spectrometric methods
  • GB/T 36401-2018 Surface chemical analysis—X-ray photoelectron spectroscopy—Reporting of results of thin-film analysis

AENOR, How to analyze the spectrum

  • UNE-EN 14726:2006 Aluminum and aluminium alloys. Chemical analysis. Guideline for spark optical emission spectometric analysis

GOSTR, How to analyze the spectrum

  • GOST 9716.2-1979 Copper-zinc alloys. Method spectral analysis of metal standard spesimens with photoelectric registration of spectrum
  • GOST 9717.2-2018 Copper. Method of spectral analysis by metal standard specimens with photographic registration of spectrum
  • GOST 9716.3-1979 Copper-zinc alloys. Method of spectral analysis of oxide spesimens with photographic registration of spectrum
  • GOST 9716.1-1979 Copper-zinc alloys. Method of spectral analysis of metal standard spesimens with photographic registration of spectrum
  • GOST 9717.3-2018 Copper. Method of spectral analysis by oxide standard specimens

CZ-CSN, How to analyze the spectrum

  • CSN 42 0600 Cast.3-1975 Antimony of high parity. Methods of chemical and spectral analysis. Delermmation of arsenic by photomotric metod
  • CSN 42 0600 Cast.5-1975 Antimony of high purity. Methods of chemical and spectral analysis. Dctermination of silver, bismuth. copper, iron. nickel, lead. and tin by spectral method
  • CSN 42 1211-1986 The sampling of technical iron for spectrometric and chemical analysis
  • CSN 42 0600 Cast.2-1975 Antimony of high purity. Methods of chemical and spectral analysis. Preparation of the sample
  • CSN 42 0600 Cast.1-1975 Antimony of high purity. Methods of chemical and spectral analysis General data
  • CSN 42 0600 Cast.4-1975 Antimony of high purity. Method of chemical and spectral anaysis.Determination of sulfur by aombustion method

Lithuanian Standards Office , How to analyze the spectrum

  • LST EN 14726-2005 Aluminium and aluminium alloys - Chemical analysis - Guideline for spark optical emission spectrometric analysis
  • LST EN 62129-2006 Calibration of optical spectrum analyzers (IEC 62129:2006)
  • LST EN 62129-2006/AC-2007 Calibration of optical spectrum analyzers (IEC 62129:2006)
  • LST EN 14242-2005 Aluminium and aluminium alloys - Chemical analysis - Inductively coupled plasma optical emission spectral analysis
  • LST EN 15079-2007 Copper and copper alloys - Analysis by spark source optical emission spectrometry (S-OES)
  • LST L ENV 12908-2000 Lead and lead alloys - Analysis by Optical Emission Spectrometry (OES) with spark excitation

American Society for Testing and Materials (ASTM), How to analyze the spectrum

  • ASTM E996-94(1999) Standard Practice for Reporting Data in Auger Electron Spectroscopy and X-ray Photoelectron Spectroscopy
  • ASTM E718-80 Method for Spectrographic Analysis of Cartridge Brass
  • ASTM C791-83(2000) Standard Test Methods for Chemical, Mass Spectrometric, and Spectrochemical Analysis of Nuclear-Grade Boron Carbide
  • ASTM E168-92 Standard Practice for General Techniques of Infrared Quantitative Analysis
  • ASTM E1097-97 Standard Guide for Direct Current Plasma Emission Spectrometry Analysis
  • ASTM E10-08 Standard Test Method for Brinell Hardness of Metallic Materials
  • ASTM E10-15 Standard Test Method for Brinell Hardness of Metallic Materials
  • ASTM E1621-21 Standard Guide for X-Ray Emission Spectrometric Analysis
  • ASTM E1621-05 Standard Guide for X-Ray Emission Spectrometric Analysis
  • ASTM D5381-93(2003) Standard Guide for X-Ray Fluorescence (XRF) Spectroscopy of Pigments and Extenders
  • ASTM D5381-93(1998) Standard Guide for X-Ray Fluorescence (XRF) Spectroscopy of Pigments and Extenders
  • ASTM C696-11 Standard Test Methods for Chemical, Mass Spectrometric, and Spectrochemical Analysis of Nuclear-Grade Uranium Dioxide Powders and Pellets
  • ASTM E716-94(2002) Standard Practices for Sampling Aluminum and Aluminum Alloys for Spectrochemical Analysis
  • ASTM E716-16(2021)e2 Standard Practices for Sampling and Sample Preparation of Aluminum and Aluminum Alloys for Determination of Chemical Composition by Spark Atomic Emission Spectrometry

Professional Standard - Commodity Inspection, How to analyze the spectrum

  • SN/T 2785-2011 Photoelectric Emission Spectroscopic Analysis of Zinc and Zinc Alloys
  • SN/T 2786-2011 Photoelectric Emission Spectroscopic Analysis of Magnesium and Magnesium Alloys
  • SN/T 3914-2014 General rules for infrared spectrometer in minerals
  • SN/T 2079-2008 Method for analysis of stainless and alloy steels.X-ray fluorescence spectrometry
  • SN/T 2083-2008 Method for analysis of brass.Spark discharge atomic emission spectrometric

Professional Standard - Agriculture, How to analyze the spectrum

  • SN/T 5566-2023 General Rules of Laser Micro Raman Spectroscopy Analysis Method

BE-NBN, How to analyze the spectrum

The American Road & Transportation Builders Association, How to analyze the spectrum

AASHTO - American Association of State Highway and Transportation Officials, How to analyze the spectrum

Guangdong Provincial Standard of the People's Republic of China, How to analyze the spectrum

  • DB44/T 1602-2015 Analysis Method of Stone Composition--X-ray Fluorescence Spectrometry

(U.S.) Ford Automotive Standards, How to analyze the spectrum

Shaanxi Provincial Standard of the People's Republic of China, How to analyze the spectrum

  • DB61/T 1161-2018 Natural Gas Composition Analysis Laser Raman Spectroscopy Marshal

国家能源局, How to analyze the spectrum

  • SY/T 7433-2018 Composition analysis of natural gas using laser Raman spectroscopy
  • SY/T 7662-2022 Laser Raman spectroscopy analysis method of solid organic matter and inclusions

Professional Standard - Chemical Industry, How to analyze the spectrum

  • HG/T 2954~2955-2008 Standard writing format for atomic absorption spectroscopic analysis method Standard writing format for molecular absorption spectroscopic analysis method
  • HG/T 2955-2008 Layouts for standards of molecular absorption spectrometric analysis
  • HG/T 2955-1989(1997) Rules for drafting molecular absorption spectrometry analysis standards

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, How to analyze the spectrum

  • GB/T 32996-2016 Surface chemical analysis—Analysis of metal oxide films by glow-discharge optical emission spectrometry
  • GB/T 32997-2016 Surface chemical analysis—General procedures for quantitative compositional depth profiling by glow discharge optical emission spectrometry

IEC - International Electrotechnical Commission, How to analyze the spectrum

  • PAS 62129-2004 Calibration of optical spectrum analyzers (Edition 1.0;: 2006)

North Atlantic Treaty Organization Standards Agency, How to analyze the spectrum

Indonesia Standards, How to analyze the spectrum

  • SNI 13-4694-1998 Composition analysis of coal ash by atomic absorption spectrometry
  • SNI 06-6596-2001 Water treatment for metal analysis by atomic absorption spectrophotometers

VN-TCVN, How to analyze the spectrum

  • TCVN 6061-2009 Beer.Determination of colour by spectrophotometric method

Group Standards of the People's Republic of China, How to analyze the spectrum

  • T/CSTM 00964-2022 General rules for performance evaluation of atomic spectrometer
  • T/CSTM 00011E-2021 General rules for original position statistic distribution analysis by laser induced breakdown spectroscopy
  • T/CSTM 00011-2017 General Rules for In Situ Statistical Distribution Analysis Method of Laser Induced Breakdown Spectroscopy

AT-ON, How to analyze the spectrum

  • ONORM M 6238 Teil.1-1986 Water analysis; determination ofnitrate; 2,6-dimethylphenol spectrometric method
  • ONORM M 6603-2-1997 Water analysis - Determination of potassium and sodium by flame emission spectrometry
  • ONORM M 6603-1-1997 Water analysis - Determination of potassium and sodium by atomic absorption spectrometry

Professional Standard - Forestry, How to analyze the spectrum

  • LY/T 2053-2012 Standard method for near infrared qualitative analysis of Wood
  • LY/T2053-2012 Standard method for mear infrarde qualitative analysis of wood

KR-KS, How to analyze the spectrum

Professional Standard - Electricity, How to analyze the spectrum

  • DL/T 991-2006 Spectral analysis guideline of metal for electrical power equipment

ES-UNE, How to analyze the spectrum

  • UNE-EN 15079:2015 Copper and copper alloys - Analysis by spark optical emission spectrometry (S-OES)
  • UNE-EN 62129-1:2016 Calibration of wavelength/optical frequency measurement instruments - Part 1: Optical spectrum analyzers (Endorsed by AENOR in July of 2016.)

YU-JUS, How to analyze the spectrum

  • JUS C.A1.360-1977 Methods for chemical analysis of zine and zine alloys. Determination of group of elements - spectrographic analysis

PL-PKN, How to analyze the spectrum

  • PN H04155-09-1986 Chemical analysis of silica raw materials and refractory products Method spectrographic

European Committee for Electrotechnical Standardization(CENELEC), How to analyze the spectrum

  • EN 62129-1:2016 Calibration of wavelength/optical frequency measurement instruments - Part 1: Optical spectrum analyzers

工业和信息化部/国家能源局, How to analyze the spectrum

  • JB/T 12962.2-2016 Energy dispersive X-ray fluorescence spectrometer Part 2: Elemental analyzers

National Metrological Technical Specifications of the People's Republic of China, How to analyze the spectrum

  • JJF 1133-2005 Calibration Specification of Gold Gauge Utilizing X-ray Fluorescence Spectrometry

SE-SIS, How to analyze the spectrum

  • SIS SS IEC 714:1983 Electronic measurement equipment - Expression of the properties of spectrum analyzers

Professional Standard - Textile, How to analyze the spectrum

  • FZ/T 01144-2018 Near Infrared Spectroscopy for Quantitative Analysis of Textile Fibers

Liaoning Provincial Standard of the People's Republic of China, How to analyze the spectrum

  • DB21/T 2079-2013 Polyvinyl chloride (PVC) cable material analysis - infrared spectroscopy

Professional Standard - Aviation, How to analyze the spectrum

  • HB 5219.11-1998 Chemical Analysis Methods of Magnesium Alloys - Determination of Nickel Content by Atomic Absorption Spectrometry
  • HB 5219.13-1998 Magnesium Alloy Chemical Analysis Methods Atomic Absorption Spectroscopic Analysis Determination of Zinc Content
  • HB 5219.20-1998 Methods of chemical analysis of magnesium alloys - Determination of silver content by atomic absorption spectrometry
  • HB 5219.3-1998 Methods of chemical analysis of magnesium alloys - Determination of copper content by atomic absorption spectrometry




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