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Nickel spike potential

Nickel spike potential, Total:59 items.

In the international standard classification, Nickel spike potential involves: Non-ferrous metals, Testing of metals, Nuclear energy engineering, Surface treatment and coating, Corrosion of metals, Welding, brazing and soldering, Energy and heat transfer engineering in general, Metalliferous minerals.

CZ-CSN, Nickel spike potential

• CSN 42 0640 Cast.15-1989 Chemical analysis of non-ferrous metals and alloys. Nickel. Determination of carbon by the potentiometric titration
• CSN 42 0643 Cast.11-1972 Chemical analysis of alloyed nickel Determination of carbon by potentiometric method

YU-JUS, Nickel spike potential

• JUS C.A1.707-1991 Metho?s for ehemical analysls of nlckel aod nlckel alloys. Determlnation of chro-mium in nlckel alloys. Potentiometrlc titration methods
• JUS C.A1.706-1991 Hetho?s for cbemlcal analysis of nlckel and nlckel alloys. Determination of co-balt in nickel alloys. Potentiometrlc titration metbod

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, Nickel spike potential

• GB/T 31309-2014 Calculation of electoron vacancy number in nickel-base superalloys
• GB/T 42513.1-2023 Methods of chemical analysis of nickel alloys - Part 1: Determination of chromium content by ferrous ammonium sulfate potentiometric titration

American Society for Testing and Materials (ASTM), Nickel spike potential

• ASTM C1871-22 Standard Test Method for Determination of Uranium Isotopic Composition by the Double Spike Method Using a Thermal Ionization Mass Spectrometer
• ASTM E963-95(2004) Standard Practice for Electrolytic Extraction of Phases from Ni and Ni-Fe Base Superalloys Using a Hydrochloric-Methanol Electrolyte
• ASTM C1871-18a Standard Test Method for Determination of Uranium Isotopic Composition by the Double Spike Method Using a Thermal Ionization Mass Spectrometer
• ASTM C1871-18 Standard Test Method for Determination of Uranium Isotopic Composition by the Double Spike Method Using a Thermal Ionization Mass Spectrometer
• ASTM B651-83(2001) Standard Test Method for Measurement of Corrosion Sites in Nickel Plus Chromium or Copper Plus Nickel Plus Chromium Electroplated Surfaces with the Double-Beam Interference Microscope
• ASTM B651-83(1995) Standard Test Method for Measurement of Corrosion Sites in Nickel Plus Chromium or Copper Plus Nickel Plus Chromium Electroplated Surfaces with the Double-Beam Interference Microscope
• ASTM B651-83(2006) Standard Test Method for Measurement of Corrosion Sites in Nickel Plus Chromium or Copper Plus Nickel Plus Chromium Electroplated Surfaces with Double-Beam Interference Microscope
• ASTM B651-83(2015) Standard Test Method for Measurement of Corrosion Sites in Nickel Plus Chromium or Copper Plus Nickel Plus Chromium Electroplated Surfaces with Double-Beam Interference Microscope
• ASTM B651-83(2010) Standard Test Method for Measurement of Corrosion Sites in Nickel Plus Chromium or Copper Plus Nickel Plus Chromium Electroplated Surfaces with Double-Beam Interference Microscope
• ASTM E963-95(2000) Standard Practice for Electrolytic Extraction of Phases from Ni and Ni-Fe Base Superalloys Using a Hydrochloric-Methanol Electrolyte
• ASTM E963-95(2010) Standard Practice for Electrolytic Extraction of Phases from Ni and Ni-Fe Base Superalloys Using a Hydrochloric-Methanol Electrolyte
• ASTM B764-04(2021) Standard Test Method for Simultaneous Thickness and Electrode Potential Determination of Individual Layers in Multilayer Nickel Deposit (STEP Test)
• ASTM B764-94 Standard Test Method for Simultaneous Thickness and Electrochemical Potential Determination of Individual Layers in Multilayer Nickel Deposit (STEP Test)
• ASTM B764-94(2003) Standard Test Method for Simultaneous Thickness and Electrochemical Potential Determination of Individual Layers in Multilayer Nickel Deposit (STEP Test)
• ASTM B764-04(2014) Standard Test Method for Simultaneous Thickness and Electrode Potential Determination of Individual Layers in Multilayer Nickel Deposit 40;STEP Test41;
• ASTM G61-86(2009) Standard Test Method for Conducting Cyclic Potentiodynamic Polarization Measurements for Localized Corrosion Susceptibility of Iron-, Nickel-, or Cobalt-Based Alloys

Professional Standard - Machinery, Nickel spike potential

• JB/T 10534-2005 Standard test method for simultaneous thickness and electrochemical potential determination of individual layers multilayer nickel deposit

Professional Standard - Aviation, Nickel spike potential

• HB/Z 5088.4-1999 Analysis method for nickel plating solution Determination of boric acid content through potentiometric titration
• HB/Z 5088.3-1999 Analysis method for nickel plating solution Determination of sodium chloride content through potentiometric titration
• HB/Z 5089.6-2004 Methods for analysis of plating black nickel solutions Part 6:Determination of boric acid content by potentiometric titrimetric method
• HB/Z 5090.2-2001 Analysis method for electroless nickel plating solution Determination of sodium hypophosphite content through potentiometric titration
• HB/Z 5089.5-2004 Methods for analysis of plating black nickel solutions Part 5:Determination of ammonium thiocyanate content by potentiometric titrimetric method

International Organization for Standardization (ISO), Nickel spike potential

• ISO 7529:1989 Nickel alloys; determination of chromium content; potentiometric titration method with ammonium iron(II) sulfate
• ISO 7529:2017 Nickel alloys - Determination of chromium content - Potentiometric titration method with ammonium iron(II) sulfate
• ISO 9389:1989 Nickel alloys; determination of cobalt content; potentiometric titration method with potassium hexacyanoferrate(III)
• ISO 16866:2020 Metallic and other inorganic coatings — Simultaneous thickness and electrode potential determination of individual layers in multilayer nickel deposits (STEP test)

KR-KS, Nickel spike potential

• KS D ISO 7529-2022 Nickel alloys — Determination of chromium content — Potentiometric titration method with ammonium iron(II) sulfate

RO-ASRO, Nickel spike potential

• STAS SR ISO 9389:1995 Nickel alloys. Determination of cobalt.content. Potentiometric titration method with potassium hexacyanoferrate (III)

Korean Agency for Technology and Standards (KATS), Nickel spike potential

• KS D ISO 7529-2012(2017) Nickel alloys－Determination of chromium content－Potentiometric titration method with ammonium iron(II) sulfate
• KS D 0280-2005 Standard test method for conducting cyclic potentiodynamic polarization measurements for localized corrosion susceptibility of iron-, nickel-, or cobalt-based alloys
• KS D 0280-2020 Standard test method for conducting cyclic potentiodynamic polarization measurements for localized corrosion susceptibility of iron-, nickel-, or cobalt-based alloys

Professional Standard - Nuclear Industry, Nickel spike potential

• EJ/T 472-2018 Specification for No. 600 nickel-based brazing filler metal for fuel assembly positioning grid in pressurized water reactor nuclear power plant
• EJ/T 472-1999 Specification for the No.600 nickel base brazing filler metal of spacer grid of fuel assembly for pressurized water reactor nuclear power plants
• EJ 472-1989 Specifications for No. 600 nickel-based brazing filler metal used for positioning grids of fuel assemblies in 300,000-kilowatt pressurized water reactor nuclear power plants

Standard Association of Australia （SAA）, Nickel spike potential

• AS ISO 15661:2022 Copper and nickel sulfide ores and concentrates — Determination of total chlorine content — Alkaline fusion and potentiometric titration method

Tianjin Provincial Standard of the People's Republic of China, Nickel spike potential

• DB12/ 046.61-2011 Calculation method and limit of comprehensive energy consumption per unit output of products Part 61: Ni-MH batteries

工业和信息化部, Nickel spike potential

• YS/T 1569.2-2022 Methods of chemical analysis of lithium nickel manganate Part 2: Determination of manganese content by potentiometric titration
• YS/T 1263.2-2018 Methods for chemical analysis of lithium nickel cobalt aluminate Part 2: Determination of cobalt content by potentiometric titration
• 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

British Standards Institution (BSI), Nickel spike potential

• BS ISO 15661:2020 Copper and nickel sulfide ores and concentrates. Determination of total chlorine content. Alkaline fusion and potentiometric titration method
• BS EN ISO 16866:2022 Metallic and other inorganic coatings. Simultaneous thickness and electrode potential determination of individual layers in multilayer nickel deposits (STEP test)
• 19/30320317 DC BS ISO 15661-1. Copper and nickel sulfide ores and concentrates. Determination of total chlorine content. Alkaline fusion and potentiometric titration method
• 19/30402378 DC BS ISO 16866. Metallic and other inorganic coatings. Simultaneous thickness and electrode potential determination of individual layers in multilayer nickel deposits (STEP test)

未注明发布机构, Nickel spike potential

• DIN EN 16866:2018 Metallic and other inorganic coatings – layer potential measurement of galvanic multiple nickel layer systems (STEP test); German version EN 16866:2017
• BS ISO 16866:2020 Metallicand otherinorganic coatings — Simultaneous thickness and electrode potential determination ofindividual layers in multilayernickel deposits (STEP test)

European Committee for Standardization (CEN), Nickel spike potential

• EN 16866:2017 Metallic and other inorganic coatings - Simultaneous thickness and electrode potential determination of individual layers in multilayer nickel deposits (STEP test)
• EN ISO 16866:2022 Metallic and other inorganic coatings - Simultaneous thickness and electrode potential determination of individual layers in multilayer nickel deposits (STEP test) (ISO 16866:2020)

Association Francaise de Normalisation, Nickel spike potential

• NF A91-055*NF EN 16866:2017 Metallic and other inorganic coatings - Simultaneous thickness and electrode potential determination of individual layers in multilayer nickel deposits (STEP test)
• NF EN ISO 16866:2022 Revêtements métalliques et autres revêtements inorganiques - Détermination simultanée de l'épaisseur et du potentiel d'électrode de couches individuelles dans des dépôts de nickel multicouches (essai STEP)

ES-UNE, Nickel spike potential

• UNE-EN 16866:2018 Metallic and other inorganic coatings - Simultaneous thickness and electrode potential determination of individual layers in multilayer nickel deposits (STEP test)

German Institute for Standardization, Nickel spike potential

• DIN EN ISO 16866:2023-01 Metallic and other inorganic coatings - Simultaneous thickness and electrode potential determination of individual layers in multilayer nickel deposits (STEP test) (ISO 16866:2020); German version EN ISO 16866:2022
• DIN EN ISO 16866:2023 Metallic and other inorganic coatings - Simultaneous thickness and electrode potential determination of individual layers in multilayer nickel deposits (STEP test) (ISO 16866:2020)

国家市场监督管理总局、中国国家标准化管理委员会, Nickel spike potential

• GB/T 39138.1-2020 Methods for chemical analysis of gold nickel chromium iron silicon boron alloys—Part 1：Determination of gold content—Potentiometric titration using ferrous sulfate

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