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This is a list of projects currently being worked on by Standards Australia's Standards Development Team.
Project Code
Project Title
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Gold and gold bearing alloys, Part 1: Determination of gold content (less than 30%) - Gravimetric (fire assay) method
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Gold and gold bearing alloys, Part 2: Determination of gold content (30% to 99.5%) - Gravimetric (fire assay) method
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Gold and gold bearing alloys, Part 3: Determination of gold content (greater than 99.5%) - Gravimetric (fire assay) method
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Silver and silver bearing alloys, Part 1: Determination of silver content (0.1% to 99.9%) - Titrimetric (potentiometric) method
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Silver and silver bearing alloys, Part 2: Determination of silver content (0.1% to 99.9%) - Gravimetric (fire assay) method
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The constitution of a Technical Committee consists of the Nominating Organisations that represent various interest groups across the industries. These Nominating Organisations are currently participating in Standards Australia’s Standards Development activity. The Nominating Organisation appoints a representative to represent the views of that organisation’s interest group during the development of a Standard.
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Australasian Institute of Mining and Metallurgy
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Australian Chamber of Commerce and Industry
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Bureau of Steel Manufacturers of Australia
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Geoscience Australia
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International Copper Association Australia
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Jewellers Association of Australia
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Materials Australia
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National Association of Testing Authorities Australia
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Standards Australia participates in Standards development with the International standards bodies as listed below.
For further information on ISO relationships please visit ISO’s website www.iso.org
For further information on IEC relationships please visit IEC’s website www.iec.ch
There are no international relationships for this committee
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Below is the list of current Standards developed and published by Standards Australia. This list does not display the obsolete, superseded, available superseded and withdrawn Standards. The published Standards are documents that set out specifications and procedures designed to ensure products, services and systems are safe, reliable and consistently perform the way they are intended to.
Purchasing Standards
To purchase a Standard, please contact our publishing partner SAI Global
InfoStore.
Designation
Publication Title
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Methods for the analysis of iron and steel - Determination of nitrogen in steel (steam distillation titrimetric method)
Sets out a method for determination of nitrogen in all types of steel, and is applicable to nitrogen contents between 0.001 percent and 0.5 percent.
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Methods for the analysis of iron and steel - Determination of nitrogen in steel (steam distillation titrimetric method)
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Methods for the analysis of iron and steel - Part 12: Determination of nitrogen in steel (steam distillation titrimetric method)
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Methods for the analysis of iron and steel - Determination of molybdenum content - Flame atomic absorption spectrometric method
Sets out a flame atomic absorption spectrometric method for the determination of molybdenum in steel in the range 0.005 percent to 2.5 percent.
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Methods for the analysis of iron and steel - Part 23: Determination of molybdenum content - Flame atomic absorption spectrometric method
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Methods for the analysis of iron and steel - Determination of lead content (flame atomic absorption spectrometric method)
Sets out the flame atomic absorption spectrometric method for the determination of lead in iron and steel.
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Methods for the analysis of iron and steel - Part 25: Determination of lead content (flame atomic absorption spectrometric method)
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Methods for the analysis of iron and steel - Determination of cobalt content - Flame atomic absorption spectrometric method
Sets out a flame atomic absorption method for the determination of cobalt in iron and steel in the range 0.003 percent to 0.4 percent.
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Methods for the analysis of iron and steel - Part 29: Determination of cobalt content - Flame atomic absorption spectrometric method
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Methods for the analysis of iron and steel - Determination of nickel content - Flame atomic absorption spectrometric method
Sets out a flame atomic absorption procedure for the determination of nickel in iron and steel in the range of 0.002 percent to 0.5 percent. The method is technically identical to ISO 4940, Steel and cast iron - Determination of nickel content - Flame atomic absorption spectrometric method.
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Methods for the analysis of iron and steel - Part 33: Determination of nickel content - Flame atomic absorption spectrometric method
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Methods for the analysis of zinc and zinc alloys - Determination of aluminium content - Titrimetric method
Specifies a titrimetric method for the determination of aluminium in zinc and zinc alloys. It is applicable in the range of 3 percent to 13 percent aluminium. The method is not applicable to zinc alloys containing titanium as this interferes with the determination.
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Methods for the analysis of zinc and zinc alloys - Part 1: Determination of aluminium content - Titrimetric method
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Methods for the analysis of zinc and zinc alloys - Determination of magnesium content - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of magnesium content in the range 0.002 percent to 0.10 percent magnesium in zinc and zinc alloys containing less than 5 percent aluminium.
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Methods for the analysis of zinc and zinc alloys - Part 2: Determination of magnesium content - Flame atomic absorption spectrometric method
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Methods for the analysis of zinc and zinc alloys - Determination of aluminium content - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of aluminium, in the range 0.01 percent to 1.0 percent, in zinc alloys. The method is suitable in the presence of the following metals, up to the concentration indicated: antimony 0.05 percent, cadmium 0.5 percent, copper 0.1 percent, iron 0.1 percent, lead 1.5 percent and tin 1.0 percent.
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Methods for the analysis of zinc and zinc alloys - Part 3: Determination of aluminium content - Flame atomic absorption spectrometric method
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Methods for the analysis of zinc and zinc alloys - Determination of copper content (0.0001% to 0.0025%) - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of copper content in the range 0.0001 percent to 0.0025 percent copper in special high grade zinc, high grade zinc and diecast zinc alloys containing less than 4.3 percent aluminium and 0.06 percent magnesium.
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Methods for the analysis of zinc and zinc alloys - Part 5: Determination of copper content (0.0001% to 0.0025%) - Flame atomic absorption spectrometric method
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Methods for the analysis of zinc and zinc alloys - Determination of copper content (0.25% to 1.25%) - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of copper content in the range 0.25 percent to 1.25 percent copper in special high grade zinc, high grade zinc and diecast zinc alloys containing less than 4.3 percent aluminium, 0.003 percent cadmium, 0.08 percent iron, 0.005 percent lead, 0.08 percentmagnesium and 0.001 percent tin.
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Methods for the analysis of zinc and zinc alloys - Part 6: Determination of copper content (0.25% to 1.25%) - Flame atomic absorption spectrometric method
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Methods for the analysis of zinc and zinc alloys - Determination of lead content - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of lead content between 0.0001 percent and 1.3 percent in special high grade zinc and high grade zinc, and in diecast alloys containing a maximum of 4.3 percent aluminium, 0.06 percent magnesium and 1.3 percent copper.
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Methods for the analysis of zinc and zinc alloys - Part 7: Determination of lead content - Flame atomic absorption spectrometric method
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Methods for the analysis of zinc and zinc alloys - Determination of cadmium content - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of cadmium, in the range 0.0001 percent to 0.02 percent cadmium, in special high grade and high grade zinc, and diecast alloys containing a maximum of 4.3 percent aluminium, 0.06 percent magnesium and 1.3 percent copper.
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Methods for the analysis of zinc and zinc alloys - Part 8: Determination of cadmium content - Flame atomic absorption spectrometric method
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Copper alloys - Determination of lead in copper alloys (flame atomic absorption spectrometric method)
Specifies a flame atomic absorption spectrometric method for the determination of lead content between 0.01 percent and 10 percent in copper alloys containing a maximum of 10 percent aluminium, 80 percent copper, 5 percent iron, 5 percent manganese, 40 percent nickel, 3 percent silicon, 10 percent tin and 40 percent zinc.
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Copper alloys - Part 1: Determination of lead in copper alloys (flame atomic absorption spectrometric method)
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Copper alloys - Determination of manganese content - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of manganese content between 0.002 percent and 2.1 percent in copper alloys containing a maximum of 10 percent aluminium, 80 percent copper, 5 percent iron, 30 percent nickel, 3 percent silicon, 10 percent tin and 40 percent zinc.
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Copper alloys - Part 2: Determination of manganese content - Flame atomic absorption spectrometric method
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Copper alloys - Determination of silver content - Flame atomic absorption spectrometric methods
Sets out a flame atomic absorption spectrometric method for determining silver in copper alloys in the range 0.002 percent to 0.15 percent. It differs from the previous edition principally in changing the lower end of the application range from 0.001 percent to 0.002 percent and inclusion of new precision data to cover the application range.
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Copper alloys - Part 3: Determination of silver content - Flame atomic absorption spectrometric methods
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Methods for the analysis of copper alloys - Electrolytic determination of copper in wrought and cast copper alloys
Applies to determination of copper in alloys with copper content 50 to 95 percent. The copper in solution after electrodeposition is complete is determined by atomic absorption spectroscopy.
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Methods for the analysis of copper alloys - Part 4: Electrolytic determination of copper in wrought and cast copper alloys
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Copper alloys - Determination of cadmium - Flame atomic absorption spectrometric method
Sets out a flame absorption method for the determination of cadmium in copper alloys in the range of 0.1 to 1.5 percent. The method is suitable for the Copper Development Association specification C162 for cadmium copper.
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Copper alloys - Determination of cadmium - Flame atomic absorption spectrometric method
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Lead alloys - Determination of antimony content - Flame atomic absorption spectrometric method
Sets out a flame atomic absorption spectrometric method for the determination of antimony in lead alloys in the concentration range 0.1 to 3.5 percent antimony. The method is suitable in the presence of up to 2.5 percent tin and 2.5 percent arsenic. This Standard is a new edition of AS 1671.1-1974 without technical alterations.
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Lead alloys - Part 1: Determination of antimony content - Flame atomic absorption spectrometric method
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Lead alloys - Determination of low concentrations of antimony in lead alloys containing not more than 2.5 percent arsenic and 0.10 percent copper - Titrimetric method
Sets out a titrimetric method for the determination of antimony content in the range 0.1 to 3 percent in lead alloys containing less than 2.5 percent arsenic and 0.10 percent copper. This Standard is a new edition of AS 1671.2-1975 without major technical alterations.
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Lead alloys - Part 2: Determination of low concentrations of antimony in lead alloys containing not more than 2.5 percent arsenic and 0.10 percent copper - Titrimetric method
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Lead alloys - Determination of high concentrations of antimony in lead alloys containing not more than 2.5 percent arsenic and 1.0 percent copper - Titrimetric method
Sets out a titrimetric method for the determination of antimony in lead alloys containing less than 2.5 percent arsenic and 1.0 percent copper. The method which is a revision of AS 1671.3-1975, is applicable to antimony contents in the range 2 to 27 percent.
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Lead alloys - Part 3: Determination of high concentrations of antimony in lead alloys containing not more than 2.5 percent arsenic and 1.0 percent copper - Titrimetric method
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Lead and lead alloys - Determination of tin in antimonial lead - Flame atomic absorption spectrometric method
Sets out a flame atomic absorption spectrometric method for the determination of tin in antimonial lead in the range 0.01 to 0.05 percent in the presence of up to 1 percent antimony.
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Lead and lead alloys - Part 4: Determination of tin in antimonial lead - Flame atomic absorption spectrometric method
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Copper - Determination of phosphorus - Spectrophotometric method
Sets out a spectrophotometric method for the determination of phosphorus in the range 0.003 to 0.05 percent in copper. The method has been found to be satisfactory for deoxidized copper containing up to 0.01 percent silver. The method represents a revision of AS 1696.1-1974.
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Copper - Determination of phosphorus - Spectrophotometric method
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Copper - Determination of copper content - Electrogravimetric method
Specifies an electrogravimetric method for the determination of copper content in blister, anode and high grade copper, where the content of copper is greater than 97 percent. The method is particularly applicable where impurities would normally interfere with the electrode deposition of copper.
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Copper - Part 2: Determination of copper content - Electrogravimetric method
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Methods for the analysis of solders - Determination of tin (volumetric method)
Describes a volumetric method for determination of tin content of solders with tin content 5 - 70 percent.
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Methods for the analysis of solders - Part 1: Determination of tin (volumetric method)
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Methods for the analysis of solders - Determination of silver, bismuth, cadmium, copper, antimony, iron and zinc - Flame atomic absorption spectrometric method
Sets out a flame atomic absorption spectrometric method for the determination of silver, bismuth, cadmium, copper, antimony, iron and zinc in solders. Two dilution procedures are described in the method: the top-loading balance dilution procedure and the volumetric dilution procedure. The method is a new addition to the AS 2292 series of Standards for the chemical analysis of solders.
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Methods for the analysis of solders - Part 2: Determination of silver, bismuth, cadmium, copper, antimony, iron and zinc - Flame atomic absorption spectrometric method
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Zinc and zinc alloys - Sampling for chemical and spectrochemical analysis
Sets out methods for obtaining a representative sample of zinc and zinc alloys and procedures for the preparation of laboratory samples required for the determination of their chemical composition by both chemical and spectrochemical analyses.
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Zinc and zinc alloys - Sampling for chemical and spectrochemical analysis
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Lead and lead alloys - Sampling for chemical and spectrochemical analysis
Specifies methods for the sampling of lead and lead alloys and procedures for the preparation of laboratory samples required for chemical and spectrochemical analysis.
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Lead and lead alloys - Sampling for chemical and spectrochemical analysis
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Aluminium and aluminium alloys - Sampling for chemical and spectrochemical analysis
Specifies methods for obtaining a representative sample of aluminium and aluminium alloys and procedures for the preparation of labratory samples required for the determination of their chemical composition by chemical and spectrochemical analysis.
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Aluminium and aluminium alloys - Sampling for chemical and spectrochemical analysis
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Copper and copper alloys - Sampling for chemical and spectrochemical analysis, and physical testing
Sets out methods for obtaining a representative sample of copper and copper alloys and procedures for the preparation of laboratory samples required for the determination of their chemical composition by both chemical and spectrochemical analyses. The samples are taken either from molten metal or from cast forms. This Standard is also suitable for sampling copper and copper alloys for selective physical tests.
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Copper and copper alloys - Sampling for chemical and spectrochemical analysis, and physical testing
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Analysis of metals - Procedures for the setting up, calibration and standardization of atomic emission spectrometers using arc/spark discharge
Sets out procedures and terms for the setting up, calibration and standardization of atomic emission spectrometers using arc/spark discharge for the analysis of metals. Also includes test procedures to ensure optimum equipment response.
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Analysis of metals - Procedures for the setting up, calibration and standardization of atomic emission spectrometers using arc/spark discharge
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Gold and gold bearing alloys - Determination of gold content (less than 30%) - Gravimetric (fire assay) method
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Gold and gold bearing alloys - Part 1: Determination of gold content (less than 30%) - Gravimetric (fire assay) method
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Gold and gold bearing alloys - Determination of gold content 30% to 99.5% - Gravimetric (fire assay) method
Sets out a gravimetric procedure (fire assay) for the determination of gold content in gold and gold bearing alloys. This method is applicable to gold and gold alloys containing from 30 percent to 99.5 percent gold and less than 3 percent palladium, 2 percent nickel, 1 percent platinum, 0.05 percent rhodium and 0.05 percent tungsten.
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Gold and gold bearing alloys - Part 2: Determination of gold content (30% to 99.5%) - Gravimetric (fire assay) method
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Gold and gold bearing alloys - Determination of gold content (greater than 99.5%) - Gravimetric (fire assay) method
Sets out a gravimetric (fire assay) procedure for the determination of gold content in gold alloys. This method is applicable to gold and gold alloys containing more than 99.5 percent gold and less than 0.05 percent rhodium and 0.05 percent tungsten.
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Gold and gold bearing alloys - Part 3: Determination of gold content (greater than 99.5%) - Gravimetric (fire assay) method
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Gold and gold bearing alloys - Determination of gold content (greater than 99.95 percent) - Inductively coupled plasma - Atomic emission spectrometry
Sets out a procedure for indirect determination of high purity gold after determination of impurities by Inductively Coupled Plasma-Atomic Emission Spectrometry ICP-AES. The method is suitable for gold and gold alloys containing more than 99.95 percent gold.
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Gold and gold bearing alloys, Part 4: Determination of gold content (greater than 99.95 percent) - Inductively coupled plasma - Atomic emission spectrometry
RECONFIRMATION OF AS 3515.4-2007 Gold and gold bearing alloys, Part 4: Determination of gold content (greater than 99.95 percent) - Inductively coupled plasma - Atomic emission spectrometry
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Aluminium and aluminium alloys - Determination of iron - Spectrophotometric method
Sets out a spectrophotometric method for the determination of iron in aluminium and aluminium alloys in the range 0.05 percent to 2.5 percent. This Standard is technically equivalent to ISO 793:1973 but contains precision data obtained from an interlaboratory test program carried out in Australia.
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Aluminium and aluminium alloys - Part 1: Determination of iron - Spectrophotometric method
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Aluminium and aluminium alloys - Determination of silicon - Gravimetric method
Sets out a gravimetric method for the determination of silicon in aluminium alloys in the range 0.30 percent to 13 percent.
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Aluminium and aluminium alloys - Part 2: Determination of silicon - Gravimetric method
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Recommended practice for metal analysis by electrochemical stripping techniques
Sets out recommendations for the selection of stripping techniques suitable for the determination of the concentration of metals.
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Recommended practice for metal analysis by electrochemical stripping techniques
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Determination of platinum and palladium in gold and gold bearing alloys - Flame atomic absorption spectrometry (FAAS) or inductively coupled plasma-atomic emission spectrometry (ICP-AES) (fire assay methods)
Sets out spectrometric procedures for the determination of platinum and palladium in gold and gold bearing alloys by initial fire assay followed by flame atomic absorption spectrometry (FAAS) or inductively coupled plasma-atomic emission spectrometry (ICP-AES). The methods are applicable to gold and gold alloys containing less than 10 percent palladium and less than 10 percent platinum.
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Determination of platinum and palladium in gold and gold bearing alloys - Flame atomic absorption spectrometry (FAAS) or inductively coupled plasma-atomic emission spectrometry (ICP-AES) (fire assay methods)
RECONFIRMATION OF AS 4119-2007 Determination of platinum and palladium in gold and gold bearing alloys - Flame atomic absorption spectrometry (FAAS) or inductively coupled plasma-atomic emission spectrometry (ICP-AES) (fire assay methods)
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Zinc and zinc alloys - Determination of impurities and alloying elements - Atomic emission spectrometric method
Sets up a method for the determination of impurities and alloying elements in zinc and zinc alloys by arc/spark atomic emission spectrometry.
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Zinc and zinc alloys - Determination of impurities and alloying elements - Atomic emission spectrometric method
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Aluminium and aluminium alloys - Determination of impurities and alloying elements - Atomic emission spectrometric method
Sets out a method for the determination of impurities and alloying elements in aluminium by arc/spark atomic emission spectrometry.
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Aluminium and aluminium alloys - Determination of impurities and alloying elements - Atomic emission spectrometric method
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Lead and lead alloys - Determination of impurities and alloying elements - Atomic emission spectrometric method
Sets out a method for the determination of impurities and alloying elements in lead and lead alloys by arc/spark atomic emission spectrometry.
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Lead and lead alloys - Determination of impurities and alloying elements - Atomic emission spectrometric method
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Silver and silver bearing alloys - Determination of silver content (0.1% to 99.9%) - Tritrimetric (potentiometric) method
Sets out a titrimetric procedure for the determination of silver content and silver bearing alloys. This method is applicable to alloys containing 0.1 percent to 99.9 percent silver. Total of gold and platinum group metals must be less than 20 percent.
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Silver and silver bearing alloys - Part 1: Determination of silver content (0.1% to 99.9%) - Titrimetric (potentiometric) method
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Silver and silver bearing alloys - Determination of silver content (1% to 99%) - Gravimetric (fire assay) method
Sets out a gravimetric (fire assay) procedure for the determination of silver content in silver bearing alloys. This method is applicable to alloys containing 1 percent to 99 percent silver and less than 2 percent nickel, 0.05 percent rhodium and 0.05 percent tungsten.
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Silver and silver bearing alloys - Part 2: Determination of silver content (0.1% to 99.9%) - Gravimetric (fire assay) method
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AS/NZS 1050.1:1996 Rec:2017
Methods for the analysis of iron and steel - Part 1: Sampling iron and steel for chemical analysis
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Methods for the analysis of iron and steel - Sampling iron and steel for chemical analysis
Describes methods for sampling and sample preparation for the determination of the chemical composition of pig iron, cast iron and steel. Procedures are described for use with both liquid and solid metal.
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Methods for the analysis of iron and steel - Determination of manganese in iron and steel - Titrimetric method
This method sets out a titrimetric method, using the permanganate ion formed by oxidation, for the determination of the manganese content of iron and steel. The method covers the range 0.50 percent to 15 percent manganese and is applicable to all grades of iron and steel.
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AS/NZS 1050.16:1994 Rec:2017
Methods for the analysis of iron and steel - Part 16: Determination of sulfur content - Infrared absorption method after combustion in an induction furnace
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Methods for the analysis of iron and steel - Determination of sulfur content - Infrared absorption method after combustion in an induction furnace
Specifies an infrared absorption method after combustion of the test portion at high temperature in a current of pure oxygen using a high frequency induction furnace. The method can be used for the determination of sulfur content between 0.002 percent and 0.10 percent in steel. This Standard is identical with and reproduced from ISO 4935:1989.
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AS/NZS 1050.18:1994 Rec:2016
Methods for the analysis of iron and steel - Part 18: Determination of phosphorus - Spectrophotometric method
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Methods for the analysis of iron and steel - Determination of phosphorus - Spectrophotometric method
Specifies a spectrophotometric method for the determination of the phosphorus content of iron and steel. The method is applicable to the determination of phosphorus contents between 0.005 percent and 2.0 percent, provided that the following elements are not present in amounts greater than that specified: niobium 1 percent, tantalum 1 percent, titanium 2 percent, tungsten 11 percent, zirconium 1 percent.
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AS/NZS 1050.2:1994 Rec:2016
Methods for the analysis of iron and steel - Part 2: Determination of carbon content - Gravimetric method
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AS/NZS 1050.20:1994 Rec:2016
Methods for the analysis of iron and steel - Part 20: Determination of magnesium content - Flame atomic absorption spectrometric method
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Methods for the analysis of iron and steel - Determination of magnesium content - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of magnesium content between 0.010 percent and 0.25 percent in all types of iron and steel.
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AS/NZS 1050.21:1994 Rec:2016
Methods for the analysis of iron and steel - Part 21: Determination of cobalt content - Spectrophotometric method
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Methods for the analysis of iron and steel - Determination of cobalt content - Spectrophotometric method
Specifies a spectrophotometric method for the determination of cobalt content up to 12 percent in all grades of iron and steel containing less than 10.0 percent copper. The sample is dissolved in acid and nitroso-R-salt added. This forms a red-brown chromophore which is measured spectrophotometrically at 580 nm.
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Methods for the analysis of iron and steel - Determination of carbon content - Gravimetric method
Specifies a gravimetric method for the determination of carbon content between 0.05 percent and 4.5 percent in all types of iron and steel.
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AS/NZS 1050.24:1994 Rec:2016
Methods for the analysis of iron and steel - Part 24: Determination of aluminium content - Spectrophotometric method
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Methods for the analysis of iron and steel - Determination of aluminium content - Spectrophotometric method
Specifies a spectrophotometric method for the determination of aluminium content in the range of 0.002 percent to 1.4 percent aluminium in all types of iron and steel. The method uses a mercury cathode, followed by solvent extraction to separate interfering elements, with alizarin red S to produce a chromogen which is measured at a wavelength of 490 nm.
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AS/NZS 1050.26:1994 Rec:2016
Methods for the analysis of iron and steel - Part 26: Silicon in iron and steel - Spectrophotometric method
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Methods for the analysis of iron and steel - Silicon in iron and steel - Spectrophotometric method
Specifies a spectrophotometric method using reduced ß-silicomolybdate complex, for the determination of the total silicon content of iron and steel. The method covers the range 0.005 percent to 5.0 percent silicon and is applicable to all grades of iron and steel.
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AS/NZS 1050.27:1994 Rec:2016
Methods for the analysis of iron and steel - Part 27: Determination of titanium content - Spectrophotometric method
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Methods for the analysis of iron and steel - Determination of titanium content - Spectrophotometric method
Specifies a spectrophotometric method using diantipyrylmethane as a chromogen, measured spectrophotometrically at 390 nm. The method can be used for the determination of titanium content between 0.005 percent and 1.20 percent in steel.
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AS/NZS 1050.28:1994 Rec:2016
Methods for the analysis of iron and steel - Part 28: Vanadium in steel - Potentiometric method
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Methods for the analysis of iron and steel - Vanadium in steel - Potentiometric method
Specifies a potentiometric method for the determination of vanadium in both low and high alloy steels containing 0.003 percent to 2.00 percent vanadium.
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AS/NZS 1050.31:1994 Rec:2016
Methods for the analysis of iron and steel - Part 31: Determination of niobium content - PAR spectrophotometric method
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Methods for the analysis of iron and steel - Determination of niobium content - PAR spectrometric method
Specifies a PAR spectrometric method for the determination of niobium content between 0.005 percent and 1.3 percent in steel. This Standard is technically identical with and reproduced from ISO 9441:1988.
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AS/NZS 1050.32:1994 Rec:2017
Methods for the analysis of iron and steel - Part 32: Determination of carbon content - Infrared method
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Methods for the analysis of iron and steel - Determination of carbon content - Infrared method
Specifies an infrared method for the determination of carbon in iron and steel after combustion in oxygen using high frequency induction heating. The method is applicable to all types of iron and steel with carbon content in the range 0.002 percent to 4.5 percent carbon.
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AS/NZS 1050.37:1994 Rec:2016
"Methods for the analysis of iron and steel - Part 37: Determination of copper content - Flame atomic absorption spectrometric
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Methods for the analysis of iron and steel - Determination of copper content - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of copper content between 0.004 percent and 0.50 percent in steel. This Standard is identical with and reproduced from ISO 4943:1985.
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AS/NZS 1050.38:1994 Rec:2016
Methods for the analysis of iron and steel - Part 38: Determination of vanadium content - Flame atomic absorption spectrometric method
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Methods for the analysis of iron and steel - Determination of vanadium content - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of vanadium content between 0.005 percent and 1.0 percent in steel. This Standard is identical with and reproduced from ISO 9647:1989.
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AS/NZS 1050.39:1994 Rec:2016
Methods for the analysis of iron and steel - Part 39: Determination of chromium content - Flame atomic absorption spectrometric method
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Methods for the analysis of iron and steel - Determination of chromium content - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of chromium content between 0.002 percent and 2.0 percent in non-alloy and low alloy steel. The procedure involves dissolution of a test portion in acid and determination of the atomic absorption of the chromium spectral line, measured at either 357.9 nm or 425.4 nm in a flame atomic absorption spectrometer. This Standard is identical with and reproduced from ISO 10138:1991.
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AS/NZS 1050.6:1995 Rec:2016
Methods for the analysis of iron and steel - Part 6: Determination of tin content - Flame atomic absorption spectrometric method
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Methods for the analysis of iron and steel - Determination of tin content - Flame atomic absorption spectrometric method
Specifies a flame atomic absorption spectrometric method for the determination of tin content of iron and steel. The sample is digested in acid, the tin extracted into trioctyl phosphine oxide in 4-methylpentan-2-one (MIBK) and then aspirated into a nitrous oxide/acetylene flame of an atomic absorption spectrometer. The absorption is measured at 235.5 nm.
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AS/NZS 1050.8:1994 Rec:2016
Methods for the analysis of iron and steel - Part 8: Determination of manganese content - Spectrophotometric method
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Methods for the analysis of iron and steel - Determination of manganese content - Spectrophotometric method
Specifies a spectrophotometric method for the determination of manganese content between 0.01 percent and 2 percent in all types of iron and steel.
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The Sub Committees within the Technical Committee are listed here.
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CH-010-01 Ferrous Metals
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CH-010-02 Nonferrous Metals
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CH-010-04 Precious Metals
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CH-010-05 Electrochemistry