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How to determine the content of alloying elements

How to determine the content of alloying elements, Total:349 items.

In the international standard classification, How to determine the content of alloying elements involves: Non-ferrous metals, Testing of metals, Powder metallurgy, Materials for aerospace construction, Metalliferous minerals, Ferroalloys, Ferrous metals, Jewellery, Fertilizers, Wood-based panels, Physics. Chemistry, Materials for the reinforcement of composites, Analytical chemistry, General methods of tests and analysis for food products, Wastes, Surface treatment and coating, Optics and optical measurements, Information sciences. Publishing, Waxes, bituminous materials and other petroleum products, Fuels, Lubricants, industrial oils and related products, Non-metalliferous minerals, Water quality, Interior finishing, Soil quality. Pedology, Plastics, Products of the chemical industry, Semiconducting materials, Nuclear energy engineering, Petroleum products in general.


International Organization for Standardization (ISO), How to determine the content of alloying elements

  • ISO 3110:1975 Copper alloys; Determination of aluminium as alloying element; Volumetric method
  • ISO 3111:1975 Copper alloys; Determination of tin as alloying element; Volumetric method
  • ISO 4883:1978 Hardmetals; Determination of contents of metallic elements by X-ray fluorescence; Solution method
  • ISO 4503:1978 Hardmetals; Determination of contents of metallic elements by X-ray fluorescense; Fusion method
  • ISO 11437-2:1994 Nickel alloys - Determination of trace-element content by electrothermal atomic absorption spectrometric method - Part 2: Determination of lead content
  • ISO 11437-1:1994 Nickel alloys - Determination of trace-element content by electrothermal atomic absorption spectrometric method - Part 1: General requirements and sample dissolution
  • ISO 16424:2012 Nuclear energy - Evaluation of homogeneity of Gd distribution within gadolinium fuel blends and determination of Gd<(Index)2>O<(Index)3> content in gadolinium fuel pellets by measurements of uranium and gadolinium elements

Korean Agency for Technology and Standards (KATS), How to determine the content of alloying elements

  • KS D ISO 3110:2002 Copper alloys-Determination of aluminium as alloying element-Volumetric method
  • KS D ISO 3111:2002 Copper alloys-Determination of tin as alloying element-Volumetric method
  • KS D 1938-2003(2013) Determination of element content in zinc and zinc alloy
  • KS D ISO 4503-2003(2018) Hardmetals-Determination of contents of metallic elements by X-ray fluorescence-Fusion method
  • KS D ISO 4883-2003(2018) Hardmetals-Determination of contents of metallic elements by X-ray fluorescence-Solution method
  • KS D ISO 4503:2003 Hardmetals-Determination of contents of metallic elements by X-ray fluorescence-Fusion method
  • KS D ISO 4883:2003 Hardmetals-Determination of contents of metallic elements by X-ray fluorescence-Solution method
  • KS D ISO 3111-2002(2017) Copper alloys-Determination of tin as alloying element-Volumetric method
  • KS D ISO 3110-2002(2017) Copper alloys-Determination of aluminium as alloying element-Volumetric method
  • KS D ISO 2355:2002 Magnesium and its alloys-Determination of rare earths-Gravimetric method
  • KS D ISO 11437-2-2012(2017) Nickel alloys-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 2:Determination of lead content
  • KS D ISO 11437-2:2012 Nickel alloys-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 2:Determination of lead content
  • KS D ISO 11437-2-2012(2022) Nickel alloys-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 2:Determination of lead content
  • KS D ISO 11437-1-2012(2022) Nickel alloys-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 1:General requirements and sample dissolution
  • KS D ISO 11437-1-2012(2017) Nickel alloys-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 1:General requirements and sample dissolution
  • KS D ISO 11436:2021 Nickel and nickel alloys — Determination of total boron content —Curcumin molecular absorption spectrometric method
  • KS D ISO 11437-1:2012 Nickel alloys-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 1:General requirements and sample dissolution
  • KS D 1702-2015(2020) Platium-Determination of trace-element content by inductively coupled plasma spectrometric analysis-Matrix matching method
  • KS A ISO 16424-2013(2018) Evaluation of homogeneity of Gd distribution within gadolinium fuel blends and determination of Gd2O3 content in gadolinium fuel pellets by measurements of uranium and gadolinium elements

ES-UNE, How to determine the content of alloying elements

  • UNE-EN 12938:1999 Methods for the analysis of pewter - Determination of alloying and impurity element contents by atomic spectrometry
  • UNE-EN 24503:1993 HARDMETALS. DETERMINATION OF CONTENT OF METALLOC ELEMENTS BY X-RAY FLUORENSCENCE. FUSION METHOD (Endorsed by AENOR in May of 1993.)
  • UNE-EN 24883:1993 HARDMETALS. DETERMINATION OF CONTENTS OF METALLIC ELEMENTS BY X-RAY FLUORESCENCE. SOLUTION METHOD. (Endorsed by AENOR in May of 1993.)
  • UNE-EN ISO 16424:2018 Nuclear energy - Evaluation of homogeneity of Gd distribution within gadolinium fuel blends and determination of Gd2O3 content in gadolinium fuel pellets by measurements of uranium and gadolinium elements (ISO 16424:2012)

Association Francaise de Normalisation, How to determine the content of alloying elements

  • NF EN 15962:2011 Engrais - Dosage de la teneur en oligo-élément complexé et de la fraction complexée des oligo-éléments
  • NF A06-902*NF EN 12938:2000 Methods for the analysis of pewter - Determination of alloying and impurity element contents by atomic spectrometry.
  • NF A95-490*NF EN 24883:1993 Hardmetals. Determination of contents of metallic elements by X-ray fluorescence. Solution method.
  • XP CEN/TS 17786-2:2022 Engrais inorganiques à base d'oligo-éléments - Détermination de la teneur en oligo-éléments chélatés et de la fraction chélatée des oligo-éléments - Partie 2 : dosage de l'EDTA, du DTPA, du HEEDTA, de l'IDHA ou de l'EDDS
  • XP CEN/TS 17788:2022 Engrais organo-minéraux - Détermination de la fraction d'oligo-éléments complexés
  • XP CEN/TS 17783:2022 Fertilisants - Détermination de la stabilité des fertilisants contenant des oligo-éléments complexés
  • XP CEN/TS 17786-1:2022 Engrais inorganiques à base d'oligo-éléments - Détermination de la teneur en oligo-éléments chélatés et de la fraction chélatée des oligo-éléments - Partie 1 : traitement avec une résine échangeuse de cations
  • NF EN 13366:2001 Engrais - Traitement avec une résine échangeuse d'ions cationique pour la détermination de la teneur en oligo-éléments chélatés et de la fraction chélatée des oligo-éléments
  • XP CEN/TS 17790:2022 Engrais organo-minéraux - Détermination de la teneur en oligo-éléments chélatés et de la fraction chélatée d'oligo-éléments par traitement avec une résine échangeuse de cations
  • XP U42-764*XP CEN/TS 17790:2022 Organo-mineral fertilizers - Determination of the chelated micronutrient content and the chelated fraction of micronutrients by treatment with a cation exchange resin
  • XP CEN/TS 17782:2022 Fertilisants - Détermination de la stabilité des fertilisants contenant des oligo-éléments chélatés à différents pH
  • NF V03-098*NF EN 15111:2007 Foodstuffs - Determination of trace elements - Determination of iodine by ICP-MS (inductively coupled plasma mass spectrometry).
  • NF A08-651:1993 Chemical analysis of titanium and aluminium alloys. Determination of elements contents in low content in the TA6V alloy. Method by flame atomic absorption spectrometry or by plasma emission spectrometry.
  • NF EN 933-7:1998 Essais pour déterminer les propriétés géométriques des granulats - Partie 7 : détermination de la teneur en éléments coquilliers - Pourcentage des coquilles dans les gravillons
  • NF V03-064*NF EN 15763:2010 Foodstuffs - Determination of trace elements - Determination of arsenic, cadmium, mercury and lead in foodstuffs by inductively coupled plasma mass spectrometry (ICP-MS) after pressure digestion.
  • NF EN ISO 16424:2018 Énergie nucléaire - Évaluation de l'homogénéité de la distribution du Gd dans les mélanges de combustibles au gadolinium et détermination de la teneur en Gd2O3 dans les pastilles combustibles au gadolinium par mesurage des éléments uranium e...
  • XP U42-771*XP CEN/TS 17782:2022 Fertilizing products - Determination of the stability of fertilizing products containing micronutrient chelates at different pHs
  • NF M60-470*NF EN ISO 16424:2018 Nuclear energy - Evaluation of homogeneity of Gd distribution within gadolinium fuel blends and determination of Gd2O3 content in gadolinium fuel pellets by measurements of uranium and gadolinium elements
  • NF M60-470:2014 Nuclear energy - Evaluation of homogeneity of Gd distribution within gadolinium fuel blends and determination of Gd2O3 content in gadolinium fuel pellets by measurements of uranium and gadolinium elements

German Institute for Standardization, How to determine the content of alloying elements

  • DIN ISO 4503:1991 Hardmetals; determination of contents of metallic elements by x-ray fluorescence; fusion method; identical with ISO 4503:1978
  • DIN EN 12938:2000-10 Methods for the analysis of pewter - Determination of alloying and impurity element contents by atomic spectrometry (includes AC:2000); German version EN 12938:1999 + AC:2000
  • DIN ISO 4883:1991 Hardmetals; determination of contents of metallic elements by X-ray fluorescence; solution method; identical with ISO 4883:1978
  • DIN ISO 4503:1991-07 Hardmetals; determination of contents of metallic elements by x-ray fluorescence; fusion method; identical with ISO 4503:1978
  • DIN 50508:1977-06 Chemical analysis of copper and copper alloys; determination of tin as alloying element, volumetric method
  • DIN ISO 4883:1991-06 Hardmetals; determination of contents of metallic elements by X-ray fluorescence; solution method; identical with ISO 4883:1978
  • DIN 50508:1977 Chemical analysis of copper and copper alloys; determination of tin as alloying element, volumetric method
  • DIN EN 15111:2007 Foodstuffs - Determination of trace elements - Determination of iodine by ICP-MS (inductively coupled plasma mass spectrometry); German version EN 15111:2007
  • DIN EN 13346:2001 Characterization of sludges - Determination of trace elements and phosphorus - Aqua regia extraction methods; German version EN 13346:2000
  • DIN EN 12149:1998 Wallcoverings in roll form - Determination of migration of heavy metals and certain other elements, of vinyl chloride monomer and of formaldehyde release; German version EN 12149:1997
  • DIN EN 15765:2010 Foodstuffs - Determination of trace elements - Determination of tin by inductively coupled plasma mass spectrometry (ICP-MS) after pressure digestion; German version EN 15765:2009
  • DIN 50451-1:2003 Testing of materials for semiconductor technology - Determination of trace elements in liquids - Part 1: Silver (Ag), gold (Au), calcium (Ca), copper (Cu), iron (Fe), potassium (K) and sodium (Na) in nitric acid by AAS

HU-MSZT, How to determine the content of alloying elements

KR-KS, How to determine the content of alloying elements

  • KS D ISO 4503-2003(2023) Hardmetals-Determination of contents of metallic elements by X-ray fluorescence-Fusion method
  • KS D ISO 4883-2003(2023) Hardmetals-Determination of contents of metallic elements by X-ray fluorescence-Solution method
  • KS D ISO 11438-4-2012 Ferronickel-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 4:Determination of tin content
  • KS D ISO 11438-3-2012 Ferronickel-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 3:Determination of antimony content
  • KS D ISO 11436-2021 Nickel and nickel alloys — Determination of total boron content —Curcumin molecular absorption spectrometric method
  • KS D ISO 11438-2-2012 Ferronickel-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 2:Determination of lead content
  • KS D ISO 11438-7-2012 Ferronickel-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 7:Determination of silver content
  • KS D ISO 11438-1-2012 Ferronickel-Determination of trace-element content by electrothermal atomic absorption spectrometric method-Part 1:General requirement and sample dissolution

Danish Standards Foundation, How to determine the content of alloying elements

  • DS/EN 12938/AC:2001 Methods for the analysis of pewter - Determination of alloying and impurity element contents by atomic spectrometry
  • DS/EN 12938:2001 Methods for the analysis of pewter - Determination of alloying and impurity element contents by atomic spectrometry
  • DS/EN 24883:1993 Hardmetals. Determination of contents of metallic elements by X-ray fluorescence. Solution method
  • DS/EN 24503:1993 Hardmetals. Determination of contents of metallic elements by X-ray fluorescence. Fusion method
  • DS/EN 24503:1994 Hardmetals - Determination of contents of metallic elements by X-ray fluorescence - Fusion method
  • DS/ISO 4503:1994 Hardmetals - Determination of contents of metallic elements by X-ray fluorescence - Fusion method
  • DS/EN 24883:1994 Hardmetals - Determination of contents of metallic elements by x-ray fluorescence - Solution method
  • DS/ISO 4883:1994 Hardmetals - Determination of contents of metallic elements by x-ray fluorescence - Solution method

Lithuanian Standards Office , How to determine the content of alloying elements

  • LST EN 12938-2000 Methods for the analysis of pewter - Determination of alloying and impurity element contents by atomic spectrometry
  • LST EN 12938-2000/AC-2003 Methods for the analysis of pewter - Determination of alloying and impurity element contents by atomic spectrometry
  • LST EN 24503-2001 Hardmetals - Determination of contents of metallic elements by X-ray fluorescence - Fusion method (ISO 4503:1978)
  • LST EN 24883-2001 Hardmetals - Determination of contents of metallic elements by X-ray fluorescence - Solution method (ISO 4883:1978)

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, How to determine the content of alloying elements

  • GB/T 26050-2010 Hardmetals.Determination of contents of metallic elements by X-ray fluorescence.Fusion method
  • GB/T 20127.7-2006 Steel and alloy - Determination of trace element contents - Part 7: Determination of lead content by oscillopolarographic method
  • GB/T 13748.20-2009 Chemical analysis methods of magnesium and magnesium alloys.Part 20:Determination of elements by inductively coupled plasma atomic emission spectrometry
  • GB/T 36164-2018 High alloy steel.Determination of multi-element contents.X-ray fluorescence spectrometry (routine method)
  • GB/T 20127.6-2006 Steel and alloy - Determination of trace element contents - Part 6: Determination of germanium content by gallic acid oscillopolarographic method
  • GB/T 20127.12-2006 Steel and alloy.Determiantion of trace element contents.Part 12:Determination of zinc content by flame atomic absorption spectrometric method
  • GB/T 20125-2006 Low-alloy steel.Determination of multi-element contents.Inductively coupled plasma atomic emission spectrometric method
  • GB/T 20127.1-2006 Steel and alloy - Determination of trace element contents - Part 1: Determination of silver content by graphite furnace atomic absorption spectrometric method
  • GB/T 20127.4-2006 Steel and alloy.Determination of trace element contents.Part 4:Determination of copper content by graphite furnace atomic absorption spectrometric method
  • GB/T 20127.9-2006 Steel and alloy - Determination of trace element contents - Part 9: Determination of scandium content by inductively coupled plasma atomic emission spectrometric method
  • GB/T 20127.11-2006 Steel and alloy - Determination of trace element contents - Part 11: Determination of indium and thallium contents by inductively coupled plasma-mass spectrometric method
  • GB/T 21198.2-2007 Determination of precious metals in precious metals j ewellery alloys.Method using ICP spectrometry.Part 2:Platinum jewellery alloys--Determination of platinum.Method using the intensity ratios of all minor constituents with reference to platinum
  • GB/T 20127.5-2006 Steel and alloy - Determination of trace element contents - Part 5: Determination of gallium content by extraction separation-rhodamine B photometric method
  • GB/T 22368-2008 Low-alloy steel.Determination of multi-element contents.Glow discharge optical emission spectrometry(Routine method)
  • GB/T 4336-2016 Carbon and low-alloy steel.Determination of multi-element contents.Spark discharge atomic emission spectrometric method (routine method)
  • GB/T 20127.2-2006 Steel and alloy - Determination of trace element contents - Part 2: Determination of arsenic content by hydride generation-atomic fluorescence spectrometric method
  • GB/T 20127.8-2006 Steel and alloy - Determination of trace element contents - Part 8: Determination of antimony content by hydride generation-atomic fluorescence spectrometric method
  • GB/T 20127.10-2006 Steel and alloy.Determination of trace element contents.Part 10: Determination of selenium content by hydride generation-atomic fluorescence spectrometric method
  • GB/T 33042-2016 Determination of lead, cadmium, chromium, mercury in the surface decorated layer of wooden floor
  • GB/T 20127.3-2006 Steel and alloy - Determination of trace element contents - Part 3: Determination of calcium, magnesium, barium content by inductively coupled plasma atomic emission spectrometric method
  • GB/T 20127.13-2006 Steel and alloy - Determination of trace element contents - Part 13: Determination of tin content by iodide extraction-phenylfluorone photometric method
  • GB/T 24916-2010 Surface treatment solution.Determination of metal element contents.Inductively coupled plasma atomic emission spectrometric method
  • GB/T 223.75-2008 Iron,steel and alloy.Determination of boron content. Methanol distillation-curcumin photometric method
  • GB/T 4336-2016/XG 1 Determination of multi-element content in carbon steel and medium and low alloy steel Spark discharge atomic emission spectrometry (conventional method) Amendment No. 1
  • GB/T 4336-2016(XG1-2017) Determination of multi-element content in carbon steel and medium-low alloy steel - Spark discharge atomic emission spectrometry (conventional method) Modification No. 1
  • GB/T 20975.25-2020(英文版) Methods for chemical analysis of aluminium and aluminium alloys—Part 25:Determination of elements content—Inductively coupled plasma atomic emission spectrometric method
  • GB/T 223.78-2000 Methods for chemical analysis of iron,steel and alloy-Curcumin spectrophotometric method for the determination of boron content
  • GB/T 13748.21-2009 Chemical analysis methods of magnesium and magnesium alloys.Part 21:Determination of elements by photoelectric direct reading atomic emission spectrometry
  • GB/T 25934.3-2010 Methods for chemical analysis of high purity gold.Part 3:Ethylether extraction separation-inductively coupled plasma-atomic emission spectrometry.Determination of impurity elements contents
  • GB/T 25934.2-2010(英文版) Methods for chemical analysis of high purity gold—Part 2: Inductively coupled plasma mass spectrometry standard enter emendation innerstandard method—Determination of impurity elements contents
  • GB/T 25934.1-2010 Methods for chemical analysis of high purity gold.Part 1: Ethyl acetate extraction separation-inductively coupled plasma-atomic emission spectrometry.Determination of impurity elements contents
  • GB/T 25934.2-2010 Methods for chemical analysis of high purity gold.Part 2: Inductively coupled plasma mass spectrometry standard enter emendation-inner standard method.Determination of impurity elements contents
  • GB/T 25934.3-2010(英文版) "Methods for chemical analysis of high purity gold—Part 3:Ethyl ether extraction separation inductively coupled plasma atomic emission spectrometry—Determination of impurity elements contents"
  • GB/T 6987.24-2001 Aluminium and aluminium alloys--Determination of the cerium subgroup of rare earth elements content--Tribromoarsenazo spectrophotometric method
  • GB/T 13747.27-2020 Methods for chemical analysis of zirconium and zirconium alloys—Part 27:Determination of trace impurities content—Inductively coupled plasma mass spectrometry
  • GB/T 14849.4-2008 Methods for chemical analysis of silicon metal.Part 4: Determination of elements content.Inductively coupled plasma atomic emission specrometric method

British Standards Institution (BSI), How to determine the content of alloying elements

  • BS EN 24503:1993 Hardmetals. Determination of contents of metallic elements by X-ray fluorescence. Fusion method
  • BS EN 12938:2000 Methods for the analysis of pewter. Determination of alloying and impurity element contents by atomic spectrometry
  • BS EN 12938:2000(2001) Methods for the analysis of pewter. Determination of alloying and impurity element contents by atomic spectrometry
  • BS EN 24883:1993 Specification for hardmetals. Determination of contents of metallic elements by X-ray fluorescence. Solution method
  • BS 3907-8:1970 Methods for the analysis of magnesium and magnesium alloys - Determination of total rare earths in magnesium alloys (gravimetric method)
  • BS 3907-10:1969 Methods for the analysis of magnesium and magnesium alloys - Determination of manganese in magnesium alloys containing zirconium, rare earths, thorium and/or silver (photometric method)
  • PD CEN/TS 17786-2:2022 Inorganic micronutrient fertilizers. Determination of the chelated micronutrient content and the chelated fraction of micronutrients. Determination of EDTA, DTPA, HEEDTA, IDHA or EDDS
  • PD CEN/TS 17786-1:2022 Inorganic micronutrient fertilizers. Determination of the chelated micronutrient content and the chelated fraction of micronutrients. Treatment with a cation exchange resin
  • BS EN 15111:2007 Foodstuffs - Determination of trace elements - Determination of iodine by ICP-MS (inductively coupled plasma mass spectrometry)
  • BS ISO 11495:2008 Jewellery - Determination of palladium in palladium jewellery alloys - Inductively coupled plasma (ICP) solution-spectrometric method using yttrium as internal standard element
  • BS DD CEN/TS 15111:2005 Foodstuffs - Determination of trace elements - Determination of iodine in dietetic foods by ICP-MS (inductively coupled plasma mass spectrometry)
  • BS 6200-3.40.3:1997 Sampling and analysis of iron, steel and other ferrous metals. Methods of analysis. Multi-element methods. Determination of nickel, copper and cobalt contents by inductively coupled plasma atomic emission spectrometric method. Determination of copper c...
  • BS 6200-3.40.2:1997 Sampling and analysis of iron, steel and other ferrous metals. Methods of analysis. Multi-element methods. Determination of nickel, copper and cobalt contents by inductively coupled plasma atomic emission spectrometric method. Determination of nickel c...
  • BS 6200-3.40.4:1997 Sampling and analysis of iron, steel and other ferrous metals. Methods of analysis. Multi-element methods. Determination of nickel, copper and cobalt contents by inductively coupled plasma atomic emission spectrometric method. Determination of cobalt c...
  • BS 6783-14:1994 Sampling and analysis of nickel, ferronickel and nickel alloys. Method for the determination of total boron content of nickel, and nickel alloys by curcumin molecular absorption spectrometry

PL-PKN, How to determine the content of alloying elements

  • PN H04208-03-1989 Analiza chemiczna ?elazostopów ?elazomolibden Oznaczanie zawarto?ci krzemu

YU-JUS, How to determine the content of alloying elements

  • JUS C.A1.616-1980 Methods for chemical analvsis ofcopper and copper alloys. Votumetric determination ofcontent ofiron as alloving element
  • JUS H.G8.262-1987 Reagents. Barium chlorlde dihydrate. Determination od heavy metals content (as Pb). Colorimetric method
  • JUS ISO 4503:1991 Hardmetals. Determination of contents of metallic elements by X-ray fluorescence. Fusion method
  • JUS ISO 4883:1991 Hardmetals. Determination of contents of metallic elements by X-ray fluorescence. solution method

Society of Automotive Engineers (SAE), How to determine the content of alloying elements

SAE - SAE International, How to determine the content of alloying elements

PT-IPQ, How to determine the content of alloying elements

Taiwan Provincial Standard of the People's Republic of China, How to determine the content of alloying elements

  • CNS 12996-1992 Method of Determination for Contents of Metallic Elements of Hardmetals by X-Ray Fluorescence (Fusion Method)
  • CNS 15019-2006 Method of test for determination of additive elements in lubricating oils by inductively coupled plasma atomic emission spectrometry

Group Standards of the People's Republic of China, How to determine the content of alloying elements

  • T/CST 2-2020 Determination of multi-element content in gold alloy jewelry by laser ablation-inductively coupled plasma mass spectrometry
  • T/SSEA 0305-2023 Determination of multi-element content of high alloy steel by spark discharge atomic emission spectrometry (conventional method)
  • T/CASAS 032-2023 Test method for the content of metal elements on the surface of silicon carbide wafer—Inductively coupled plasma mass spectrometry
  • T/CGIA 012-2019 Determination of metallic elements in graphene materials — Inductively coupled plasma emission spectrometry
  • T/SDAS 4-2016 Methods for chemical analysis of high purity gold—Determination of impurity elements contents—Glow discharge mass spectrometry
  • T/CSTM 00010.1-2017 Determination of multi-element content in iron and steel - Spark discharge atomic emission spectrometry (conventional method) - Part 1: Carbon steel and medium and low alloy steel
  • T/CSTM 00010.2-2017 Determination of multi-element content in iron and steel - Spark discharge atomic emission spectrometry (conventional method) - Part 2: Non-alloy steel
  • T/WSJD 004-2020 Determination of multi-element contents in hair— Inductively coupled plasma atomic emission spectrometry
  • T/CNIA 0120-2021 Determination of trace impurity elements in high-purity nitric acid for the electronics industry by inductively coupled plasma mass spectrometry
  • T/CNIA 0118-2021 Determination of trace impurity elements in high-purity hydrofluoric acid for the electronics industry by inductively coupled plasma mass spectrometry
  • T/CPCIF 0232-2022 Determination of titanium,magnesium, aluminum,calcium,iron,zinc and sodium in polybutylene— Inductively coupled plasma optical emission spectrometry(ICP-OES)

RU-GOST R, How to determine the content of alloying elements

  • GOST 25702.10-1983 Raremetallic concentrates. Method for the determination of sum of rare earths
  • GOST 22536.8-1987 Carbon steel and unalloyed cast iron. Methods for determination of cupper
  • GOST 22536.10-1988 Carbon steel and unalloyed cast iron. Methods for determination of alluminium
  • GOST 22536.11-1987 Carbon steel and unalloyed cast iron. Methods for determination of titanium
  • GOST 22536.12-1988 Carbon steel and unalloyed cast iron. Methods for determination of vanadium
  • GOST 22536.2-1987 Carbon steel and unalloyed cast iron. Methods for determination of sulphur
  • GOST 22536.3-1988 Carbon steel and unalloyed cast iron. Methods for determination of phosphorus
  • GOST 22536.4-1988 Carbon steel and unalloyed cast iron. Methods for determination of silicon
  • GOST 22536.5-1987 Carbon steel and unalloyed cast iron. Methods for determination of manganese
  • GOST 22536.6-1988 Carbon steel and unalloyed cast iron. Methods for determination of arsenic
  • GOST 22536.7-1988 Carbon steel and unalloyed cast iron. Methods for determination of chromium
  • GOST 22536.9-1988 Carbon steel and unalloyed cast iron. Methods for determination of nickel
  • GOST EN 13366-2016 Fertilizers. Treatment with a cation exchange resin for the determination of the chelated micro-nutrient content and of the chelated fraction of micro-nutrients
  • GOST 22536.1-1988 Carbon steel and unalloyed cast iron. Methods for determination of general carbon and graphite

European Committee for Standardization (CEN), How to determine the content of alloying elements

  • EN 24503:1993 Hardmetals; determination of contents of metallic elements by X-ray fluorescence; fusion method (ISO 4503:1978)
  • EN 24883:1993 Hardmetals; determination of contents of metallic elements by X-ray fluorescence; solution method (ISO 4883:1978)
  • FprCEN/TS 17790-2021 Organo-mineral fertilizers - Determination of the chelated micronutrient content and the chelated fraction of micronutrients by treatment with a cation exchange resin
  • EN 12938:1999 Methods for the analysis of pewter - Determination of alloying and impurity element contents by atomic spectrometry
  • EN 15111:2007 Foodstuffs - Determination of trace elements - Determination of iodine by ICP-MS (inductively coupled plasma mass spectrometry)
  • FprCEN/TS 17782-2021 Fertilizing products - Determination of the stability of fertilizing products containing micronutrient chelates at different pHs

NL-NEN, How to determine the content of alloying elements

  • NEN-ISO 4503:1993 Hardmetals. Determination of contents of metallic elements by X-ray fluorescence. Fusion method (ISO 4503:1978)
  • NEN-ISO 4883:1993 Hardmetals. Determination of contents of metallic elements by X-ray fluorescence. Solution method (ISO 4883:1978)

AENOR, How to determine the content of alloying elements

  • UNE 38860:2003 Magnesium and magnesium alloys. Determination of rare earths. Gravimetric method.

Professional Standard - Non-ferrous Metal, How to determine the content of alloying elements

  • YS/T 372.7-2006 Methods for elementary analysis of precious alloy. Determination of cobalt content. EDTA complexometric titration
  • YS/T 372.9-2006 Methods for elementary analysis of precious alloy. Determination of nickel content.EDTA complexometric titration
  • YS/T 372.11-2006 Methods for elementary analysis of precious alloy.Determination of magnesium content.EDTA complexometric titration
  • YS/T 372.12-2006 Methods for elementary analysis of precious alloy.Determination of zinc content.EDTA complexometric titration
  • YS/T 372.13-2006 Methods for elementary analysis of precious alloy. Determination of tin content. EDTA complexometric titration
  • YS/T 372.16-2006 Methods for elementary analysis of precious alloy. Determination of gallium content. EDTA complexomeric titration
  • YS/T 372.21-2006 Methods for elementary analysis of precious alloy. Determination of zirconium content. EDTA complexometric titration
  • YS/T 372.22-2006 Methods for elementary analysis of precious alloy. Determination of indium content. EDTA complexometric titration
  • YS/T 372.11-1994 Methods for elementary analysis of precious alloy.Determination of magnesium content.EDTA complexometric titration
  • YS/T 372.12-1994 Methods for elementary analysis of precious alloy.Determination of zinc content.EDTA complexometric titration
  • YS/T 372.13-1994 Methods for elementary analysis of precious alloy. Determination of tin content. EDTA complexometric titration
  • YS/T 372.7-1994 Methods for elementary analysis of precious alloy. Determination of cobalt content. EDTA complexometric titration
  • YS/T 372.5-2006 Methods for elementary analysis of precious alloy. Determination of copper content in PtCu alloy. EDTA complexometric titration
  • YS/T 372.8-2006 Methods for elementary analysis of precious alloy. Determination of cobalt content in PtCo alloy. EDTA complexometric titration
  • YS/T 372.5-1994 Methods for elementary analysis of precious alloy. Determination of copper content in PtCu alloy. EDTA complexometric titration
  • YS/T 372.10-2006 Methods for elementary analysis of precious alloy. Determination of nickel content in AuNi and PdNi alloy. EDTA complexometric titration
  • YS/T 372.10-1994 Methods for elementary analysis of precious alloy. Determination of nickel content in AuNi and PdNi alloy. EDTA complexometric titration
  • YS/T 372.4-2006 Methods for elementary analysis of precious alloy. Determination of copper content.Complexometric titration using thiourea releasing EDTA
  • YS/T 372.4-1994 Methods for elementary analysis of precious alloy. Determination of copper content.Complexometric titration using thiourea releasing EDTA
  • YS/T 372.1-2006 Methods for elementary analysis of precious alloy. Determination of silver content. Potentiometer titration with potassium iodide
  • YS/T 372.1-1994 Methods for elementary analysis of precious alloy. Determination of silver content. Potentiometer titration with potassium iodide
  • YS/T 372.3-2006 Methods for elementary analysis of precious alloy. Determination of palladoum content. Complexometric titration using butanedione dioxime releasing EDTA
  • YS/T 372.20-2006 Methods for elementary analysis of precious alloy. Determination of cadmium content. Complexometric titration using potassium iodide releasing EDTA
  • YS/T 372.3-1994 Methods for elementary analysis of precious alloy. Determination of palladoum content. Complexometric titration using butanedione dioxime releasing EDTA
  • YS/T 372.2-2006 Methods for elementary analysis of precious alloy. Determination of platinum content. Electricity titration using potassium permanganate
  • YS/T 372.14-2006 Methods for elementary analysis of precious alloy. Determination of manganese content. Potentiometer titration using potassium permanganate
  • YS/T 372.14-1994 Methods for elementary analysis of precious alloy. Determination of manganese content. Potentiometer titration using potassium permanganate
  • YS/T 372.2-1994 Methods for elementary analysis of precious alloy. Determination of platinum content. Electricity titration using potassium permanganate
  • YS/T 372.15-2006 Methods for elementary analysis of precious alloy. Determination of antimony content. The flame atomic absorption spectrometric method
  • YS/T 372.6-2006 Methods for elementary analysis of precious alloy. Determination of copper content and manganese contents. The flame atomic absorption spectrometric method
  • YS/T 372.18-2006 Methods for elementary analysis of precious alloy. Determination of gadolinium content. Chlorophosphonazo Ⅲ spectrophotometry
  • YS/T 372.19-2006 Methods for elementary analysis of precious alloy. Determination of yttrium content.Chlorophosphonazo Ⅲ spectrophotometry
  • YS/T 372.6-1994 Methods for elementary analysis of precious alloy. Determination of copper content and manganese contents. The flame atomic absorption spectrometric method
  • YS/T 372.17-2006 Methods for elementary analysis of precious alloy. Determination of tungsten and rhenium content. Tungstic acid gravimetry and thiourea spectrophotometry
  • YS/T 477-2005 Methods for chemical analysis of copper and copper alloys-Determination of boron content-Curcumin spectrophotometric method

国家市场监督管理总局、中国国家标准化管理委员会, How to determine the content of alloying elements

  • GB/T 39145-2020 Test method for the content of surface metal elements on silicon wafers—Inductively coupled plasma mass spectrometry
  • GB/T 40493-2021 Determination of lead, cadmium, chromium and mercury content in the finishing material of wood-based panel
  • GB/T 38939-2020 Nickel-based alloy—Determination of multi-element contents—Spark discharge atomic emission spectrometric method(routine method)
  • GB/T 6730.81-2020 Iron ores—Determination of multiple trace elements—Inductively coupled plasma mass spectrometric method
  • GB/T 20975.25-2020 Methods for chemical analysis of aluminium and aluminium alloys—Part 25:Determination of elements content—Inductively coupled plasma atomic emission spectrometric method
  • GB/T 37248-2018 High purity aluminium oxide—Determination of trace metal elements—Inductively coupled plasma optical emission spectrometry
  • GB/T 38789-2020 Oral care and cleansing products—Determination of 10 elements in toothpaste—Inductively coupled?plasma mass spectrometry

工业和信息化部, How to determine the content of alloying elements

  • SJ/T 11555-2015 Determination of metal element content in nitric acid using inductively coupled plasma mass spectrometry
  • YS/T 806-2020 Chemical analysis methods for aluminum and aluminum alloys Determination of elemental content X-ray fluorescence spectrometry
  • SJ/T 11554-2015 Determination of metal element content in hydrofluoric acid using inductively coupled plasma optical emission spectrometry
  • YS/T 1494-2021 Chemical analysis method for high purity gold Determination of impurity element content Glow discharge mass spectrometry
  • XB/T 628-2020 Chemical Analysis Methods for High Purity Rare Earth Metals Determination of Trace Element Content Glow Discharge Mass Spectrometry
  • YS/T 1262-2018 Chemical analysis methods for titanium sponge, titanium and titanium alloys. Determination of multi-element content by inductively coupled plasma atomic emission spectrometry.
  • YS/T 870-2020 Chemical Analysis Methods for Pure Aluminum Determination of Trace Impurity Element Contents Inductively Coupled Plasma Mass Spectrometry
  • XB/T 629.1-2020 Methods for chemical analysis of rare earth aluminum master alloys Part 1: Determination of amounts of rare earth elements
  • YS/T 1445.2-2021 Chemical analysis method for nickel-cobalt-aluminum three-element composite hydroxide Part 2: Determination of cobalt content by potentiometric titration method
  • SH/T 1829-2020 Determination of trace element content in plastic polyethylene and polypropylene resins by inductively coupled plasma optical emission spectrometry
  • YS/T 1261-2018 Hafnium Chemical Analysis Method Determination of Impurity Element Content Inductively Coupled Plasma Atomic Emission Spectrometry
  • YS/T 1445.1-2021 Methods for chemical analysis of nickel-cobalt-aluminum three-element composite hydroxides Part 1: Determination of nickel content Diacetyl oxime gravimetric method
  • YS/T 630-2016 Chemical analysis method of alumina Determination of impurity element content Inductively coupled plasma atomic emission spectrometry

IT-UNI, How to determine the content of alloying elements

Military Standard of the People's Republic of China-General Armament Department, How to determine the content of alloying elements

  • GJB 950.8-1990 Trace element analysis method of precious metals and their alloys ICP-AES method for determination of trace amounts of palladium and rhodium in platinum alloys
  • GJB 8781.3-2015 Methods for trace element analysis of superalloys Part 3: Determination of calcium content by flame atomic absorption spectrometry
  • GJB 8781.5-2015 Methods for trace element analysis of high temperature alloys Part 5: Determination of copper content by flame atomic absorption spectrometry
  • GJB 8781.8-2015 Methods for trace element analysis of high temperature alloys Part 8: Determination of magnesium content by flame atomic absorption spectrometry
  • GJB 950.1-1990 Analysis method of trace elements of precious metals and their alloys ICP-AES method Determination of trace amounts of lead, antimony, bismuth and iron in gold and gold alloys
  • GJB 8781.10-2015 Methods for trace element analysis of high temperature alloys Part 10: Determination of selenium content by graphite furnace atomic absorption spectrometry
  • GJB 8781.6-2015 Methods for trace element analysis of high temperature alloys Part 6: Determination of gallium content by graphite furnace atomic absorption spectrometry
  • GJB 770.201-1989 Test methods for gunpowder analysis Determination of metal element content Atomic absorption spectrometry
  • GJB 8781.9-2015 Methods for trace element analysis of high-temperature alloys Part 9: Determination of antimony content by hydride generation-atomic fluorescence spectrometry
  • GJB 8781.12-2015 Methods for trace element analysis of high-temperature alloys Part 12: Determination of tellurium content by hydride generation-atomic fluorescence spectrometry
  • GJB 8781.2-2015 Methods for trace element analysis of high-temperature alloys Part 2: Determination of bismuth content by hydride generation-atomic fluorescence spectrometry
  • GJB 950.5-1990 Analysis method of trace elements of precious metals and their alloys. Determination of trace iron in palladium alloys by sulfosalic acid photometric method.
  • GJB 950.2-1990 Analysis method of trace elements of precious metals and their alloys ICP-AES method Determination of trace amounts of iron, lead, antimony and bismuth in silver and silver alloys
  • GJB 8781.1-2015 Methods for trace element analysis of high-temperature alloys Part 1: Dithizone carbon tetrachloride extraction-spectrophotometric determination of silver content
  • GJB 950.5A-2021 Methods for analysis of trace elements of precious metals and their alloys Part 5: Determination of trace iron in palladium alloys by sulfosalicylic acid photometric method
  • GJB 950.7-1990 Analysis method of trace elements of precious metals and their alloys. Determination of trace amounts of lead, antimony and bismuth in palladium alloys by graphite furnace atomic absorption spectrometry.
  • GJB 950.6-1990 Analysis method of trace elements of precious metals and their alloys Separation of phenanthroline by hydrazine sulfate Photometric method for determination of trace iron in palladium alloys
  • GJB 8781.4-2015 High temperature alloy trace element analysis method Part 4: Extraction and separation of methyl isobutyl ketone - Determination of cadmium content by atomic fluorescence spectrometry
  • GJB 950.3-1990 Analysis methods for trace elements of precious metals and their alloys. Organic solvent extraction and malachite green photometric method for determination of trace amounts of gold in platinum and platinum and palladium alloys.
  • GJB 8781.17-2015 Methods for trace element analysis of superalloys Part 17: Determination of arsenic, silver, tin, antimony, tellurium, thallium, lead and bismuth by hollow cathode spectroscopy (conventional method)
  • GJB 8781.11-2015 Methods for trace element analysis of high-temperature alloys Part 11: Determination of tin content by beryllium hydroxide carrier precipitation-phenylfluorone spectrophotometric method
  • GJB 950.3A-2021 Analysis methods for trace elements of precious metals and their alloys Part 3: Determination of trace amounts of gold in platinum and platinum alloys and palladium alloys by organic solvent extraction malachite green photometric method
  • GJB 8781.7-2015 High temperature alloy trace element analysis method Part 7: Butyl acetate extraction and separation-benzene extraction crystal violet spectrophotometry for determination of indium content
  • GJB 950.6A-2021 Analysis methods for trace elements of precious metals and their alloys Part 6: Photometric determination of trace iron in palladium alloys by separation of phenanthroline using hydrazine sulfate
  • GJB 950.4-1990 Analysis methods for trace elements of precious metals and their alloys. Organic solvent extraction of o-phenanthroline. Photometric method for determination of trace amounts of iron in platinum and platinum and palladium alloys.
  • GJB 950.7A-2021 Analysis methods of trace elements of precious metals and their alloys Part 7: Determination of trace amounts of lead, antimony and bismuth in palladium alloys by graphite furnace atomic absorption spectrometry
  • GJB 8781.16-2015 Methods for trace element analysis of superalloys Part 16: Determination of boron, scandium, gallium, silver, indium, tin, antimony, cerium, hafnium, thallium, lead and bismuth by inductively coupled plasma-mass spectrometry
  • GJB 950.4A-2021 Analysis methods for trace elements of precious metals and their alloys Part 4: Photometric determination of trace iron in platinum and platinum alloys and palladium alloys using organic solvent extraction of o-phenanthroline
  • GJB 950.1A-2021 Analysis methods of trace elements of precious metals and their alloys Part 1: Determination of trace amounts of lead, antimony, bismuth, iron, zinc and cadmium in gold and gold alloys, silver and silver alloys and palladium alloys by inductively coupled
  • GJB 8781.14-2015 High temperature alloy trace element analysis method Part 14: Extraction and separation of methyl isobutyl ketone - Determination of cadmium and indium content by graphite furnace atomic absorption spectrometry
  • GJB 8781.15-2015 High temperature alloy trace element analysis method Part 15: Extraction and separation of methyl isobutyl ketone - Determination of arsenic, tin, antimony, tellurium, thallium, lead and bismuth content by graphite furnace atomic absorption spectrometry
  • GJB 8781.13-2015 High temperature alloy trace element analysis method Part 13: Methyl isobutyl ketone extraction and separation-isoamyl acetate extraction crystal violet spectrophotometric method for determination of thallium content

Professional Standard - Ferrous Metallurgy, How to determine the content of alloying elements

  • YB/T 4308-2012 Low alloy steel.Determination of multi-element contents.Laser ablation-inductively coupled plasma mass spectrometry (Routine method)
  • YB/T 6087-2023 Determination of multi-element content in high chromium alloy grinding balls Spark discharge atomic emission spectrometry (conventional method)
  • YB/T 4396-2014 Stainless steel.Determination of multi-element contents.Inductively coupled plasma atomic emission spectrometric method

Military Standard of the People's Republic of China-Commission of Science,Technology and Industry for National Defence, How to determine the content of alloying elements

  • GJB 5404.3-2005 Analysis methods for trace elements in super alloys Part 3: Determination of calcium conten by flame atomic absorption spectrometric method
  • GJB 5404.5-2005 Analysis methods for trace elements in super alloys Part 5: Determination of copper content by flame atomic absorption spectrometric method
  • GJB 5404.8-2005 Analysis methods for trace elements in super alloys Part 8: Determination of magnesium content by flame atomic absorption spectrometric method
  • GJB 5404.6-2005 Analysis methods for trace elements in super alloys Part 6: Determination of gallium content by graphite furnace atomic absorption spectrometric method
  • GJB 5404.10-2005 Analysis methods for trace elements in super alloys Part 10: Determination of selenium content by graphite furnace atomic absorption spectrometric method
  • GJB 5404.2-2005 Analysis methods for trace elements in super alloys. Part 2: Determination of bismuth content by hydride generation-atomic fluorescence spectrometric method
  • GJB 5404.9-2005 Analysis methods for trace elements in super alloys Part 9: Determination of antimony content by hydride generation atomic fluorescence spectrometric method
  • GJB 5404.12-2005 Analysis methods for trace elements in super alloys Part 12: Determination of tellurium content by hydride generation atomic fluorescence spectrometric method
  • GJB 5404.1-2005 Analysis methods for trace elements in super alloys Part 1: Determination of silver content by dithizone tetrachloromethane extraction-spectrophotometric method
  • GJB 5404.4-2005 Analysis methods for trace elements in super alloys Part 4: Determination of cadium content by methyl isobutyl ketone extraction atomic fluorescence spectrometric method
  • GJB 5404.11-2005 Analysis methods for trace elements in super alloys Part 11: Determination of tin content byeryllium hydroxide coprecipitation phenyl fluorone spectrophotometric method
  • GJB 5404.17-2005 Analysis methods for trace elements in super alloys - Part 17: Determination of arsenic, silver, tin, antimony, tellurium, thallium, lead and bismuth contents by hollow-cathode spectrometric method (Routine method)
  • GJB 950.2A-2008 Analysis methods for minor elements of precious metals and their alloys.Part 2: Determination of minor gold and iron in platinum and platinum alloys, palladium alloys by inductively coupled plasma atomic emission sPedrometric method
  • GJB 5404.7-2005 Analysis methods for trace elements in super alloys Part 7: Determination of indium content by benzene extraction crystal violet spectrophotometric method after separation of butyl acetate extraction
  • GJB 5404.16-2005 Analysis methods for trace elements in super alloys - Part 16: Determination of boron, scandium, gallium, silver, indium, tin, antimony, cerium, hafnium, thallium, lead and bismuth contents by inductively coupled plasma-mass spectrometric method
  • GJB 950.3A-2008 Analysis methods for minor elements of precious metals and their alloys.Part 3:Determination of minor palladium ang rhodium in platinum alloys by inductively coupled plasma atomic emission spectrometric method
  • GJB 950.1A-2008 Analysis methods for minor elements of precious metals and their alloys. Part 1: Determination of minor lead, antimony, bismuth, and iron in gold and gold alloys, silve and silve alloys, palladium alloys by inductively coupled plasma atomic emission spect
  • GJB 5404.14-2005 Analysis methods for trace elements in super alloys Part 14: Determination of cadmium,indium content by methyl isobutyl ketone extraction-graphite furnace atomic absorption spectrometric method
  • GJB 5404.13-2005 Analysis methods for trace elements in super alloys. Part 13: Determination of thallium content by isoamyl acetate extraction crystal violet spectrophotometric method after separation of methyl isobutyl ketone extraction

廊坊市市场监督管理局, How to determine the content of alloying elements

  • DB1310/T 229-2020 Determination of metal element content in high-purity carbon materials by inductively coupled plasma optical emission spectrometry

Professional Standard - Building Materials, How to determine the content of alloying elements

  • JC/T 2132-2012 Determination of doped and trace elements in barium strontium titanate (BST).Inductively coupled plasma atomic emission spectrometric method
  • JC/T 2133-2012 Determination of impurities in silica sol for polishing solution in semiconductor industry.Inductively coupled plasma atomic emission spectrometric method

Sichuan Provincial Standard of the People's Republic of China, How to determine the content of alloying elements

  • DB51/T 2038-2015 Determination of content of vanadium aluminum alloy silicon, iron and other 15 impurity elements by inductively coupled plasma atomic emission spectrometry

BE-NBN, How to determine the content of alloying elements

Professional Standard - Energy, How to determine the content of alloying elements

  • NB/SH/T 0929-2016 Determination of Chlorine Content in Lubricating Oil by Inductively Coupled Plasma Emission Spectrometry
  • NB/SH/T 0923-2016 Determination of element content in insulating oil by inductively coupled plasma atomic emission spectrometry

国家能源局, How to determine the content of alloying elements

  • SH/T 0929-2016 Determination of chlorine content in lubricating oils by inductively coupled plasma optical emission spectrometry
  • SH/T 0923-2016 Determination of elemental content in insulating oil by inductively coupled plasma atomic emission spectrometry

Professional Standard - Aviation, How to determine the content of alloying elements

  • HB 5219.15-1998 Determination of dissolved zirconium content by quercetin photometric method for chemical analysis of magnesium alloys
  • HB 5218.16-1995 Aluminum Alloy Chemical Analysis Method Quercetin Spectrophotometric Determination of Dissolved Zirconium Content
  • HB 5218.16-1982 Aluminum Alloy Chemical Analysis Method Quercetin Spectrophotometric Determination of Dissolved Zirconium Content
  • HB 7266.8-1996 Analytical Method for Chemical Composition of Aluminum-Lithium Alloy Quercetin Spectrophotometric Determination of Dissolved Zirconium Content
  • HB/Z 5218.16-2004 Methods for chemical analysis of aluminium alloys-Part 16:Determination of zirconium content by quercetin spectrophotometric method
  • HB 5220.40-1995 Method for Chemical Analysis of Superalloys Methanol Distillation-Curcumin Absorption Spectrophotometry for Determination of Boron Content
  • HB 5220.40-2008 Methods for chemical analysis of superalloys. Part 40: Determination of boron content by methanol distillation-curcumin photometric method

Hebei Provincial Standard of the People's Republic of China, How to determine the content of alloying elements

  • DB13/T 5025.4-2019 Determination method of graphene-carbon nanotube composite conductive paste Part 4: Determination of metal element content by inductively coupled plasma emission spectrometry

Yunnan Provincial Standard of the People's Republic of China, How to determine the content of alloying elements

  • DB53/T 667-2015 Determination of multielement content in hair by inductively coupled plasma atomic emission spectrometry
  • DB53/T 501-2013 Inductively Coupled Plasma Mass Spectrometry for Determination of Trichlorosilane Impurity Element Content in Polysilicon

Professional Standard - Commodity Inspection, How to determine the content of alloying elements

  • SN/T 3363-2012 Determination of impurity elements in pig lead.Inductively coupled plasma atomic emission spectrometry
  • SN/T 2047-2008 Determination of impurities in copper concentrates for import.Inductively coupled plasma atomic emission spectrometry

Gansu Provincial Standard of the People's Republic of China, How to determine the content of alloying elements

  • DB62/T 2760-2017 Determination of multi-element content in cryolite by inductively coupled plasma atomic emission spectrometry
  • DB62/T 2763-2017 Determination of multielement content in aluminum fluoride by inductively coupled plasma atomic emission spectrometry

American Society for Testing and Materials (ASTM), How to determine the content of alloying elements

  • ASTM D5673-15 Standard Test Method for Elements in Water by Inductively Coupled Plasma&x2014;Mass Spectrometry
  • ASTM D5673-16 Standard Test Method for Elements in Water by Inductively Coupled Plasma&x2014;Mass Spectrometry

Professional Standard - Petrochemical Industry, How to determine the content of alloying elements

  • NB/SH/T 0824-2010 Standard test method for determination of additive elements in lubricating oils by inductively coupled plasma atomic emission spectrometry
  • SH/T 0749-2004 Standard test method for determination of additive elements in both lubricating oils and additives by inductively coupled plasma atomic emission spectrometry
  • NB/SH/T 0828-2010 Standard test method for determination of silicon and other elements in engine coolant by inductively coupled plasma-atomic emission spectroscopy

CZ-CSN, How to determine the content of alloying elements

  • CSN 68 4152-1987 Extra pure compounds etermination of a content of chemical lements admixture in liquid compounds y a method of atomic emission spectros- opy

RO-ASRO, How to determine the content of alloying elements

  • STAS 12516/1-1992 Cooper, lead, zinc ores, pyrite and complex sulphides. Determination of zinc content from some mineralogical elements. Rational analysis
  • STAS 12516/2-1992 Cooper, lead, zinc ors, pyrite and complex sulphides. Determination of lead content from some mineralogical elements. Rational analysis

Shandong Provincial Standard of the People's Republic of China, How to determine the content of alloying elements

  • DB37/T 4435-2021 Determination of Total 14 Metal Elements in Soil and Sediment by Inductively Coupled Plasma Mass Spectrometry

Professional Standard - Agriculture, How to determine the content of alloying elements

  • NY/T 4313-2023 Determination of Arsenic, Cadmium, Lead, Chromium, Copper and Zinc in Biogas Slurry Microwave Digestion-Inductively Coupled Plasma Mass Spectrometry

Professional Standard - Nuclear Industry, How to determine the content of alloying elements

  • EJ/T 20170-2018 Determination of 20 trace impurity elements in metallic uranium by inductively coupled plasma atomic emission spectrometry

CEN - European Committee for Standardization, How to determine the content of alloying elements

  • EN ISO 16424:2017 Nuclear energy - Evaluation of homogeneity of Gd distribution within gadolinium fuel blends and determination of Gd2O3 content in gadolinium fuel pellets by measurements of uranium and gadolinium elements




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