Filter :
Standard and/or project | Stage | TC |
---|---|---|
Selection and preparation of samples and test pieces of wrought steels — Part 2: Samples for the determination of the chemical composition
|
95.99 | ISO/TC 17 |
Steel and steel products — General technical delivery requirements
|
95.99 | ISO/TC 17/SC 20 |
Steel and steel products — General technical delivery requirements
|
95.99 | ISO/TC 17/SC 20 |
Steel and steel products — General technical delivery requirements
|
90.93 | ISO/TC 17/SC 20 |
Steel and steel products — General technical delivery requirements — Amendment 1
|
60.60 | ISO/TC 17/SC 20 |
Steel — Determination of low carbon contents — Part 1: Manometric (low-pressure) method after combustion
|
95.99 | ISO/TC 17/SC 1 |
Steel — Determination of low carbon contents — Part 2: Titrimetric method after combustion
|
95.99 | ISO/TC 17/SC 1 |
Steel — Determination of low carbon contents — Part 3: Conductimetric measurement after combustion
|
95.99 | ISO/TC 17/SC 1 |
Steel — Determination of low carbon contents — Part 4: Coulometric method after combustion
|
95.99 | ISO/TC 17/SC 1 |
Steel — Determination of nitrogen content — Spectrophotometric method
|
95.99 | ISO/TC 17/SC 1 |
Steel — Determination of nitrogen — Spectrophotometric method
|
90.93 | ISO/TC 17/SC 1 |
Steels — Classification — Part 1: Classification of steels into unalloyed and alloy steels based on chemical composition
|
90.93 | ISO/TC 17 |
Steels — Classification — Part 2: Classification of unalloyed and alloy steels according to main quality classes and main property or application characteristics
|
90.93 | ISO/TC 17 |
Steel names based on letter symbols
|
95.99 | ISO/TC 17 |
Steel names based on letter symbols
|
95.99 | ISO/TC 17 |
Steel names based on letter symbols
|
90.93 | ISO/TC 17 |
Steel — Rating and classifying nonmetallic inclusions using the scanning electron microscope
|
40.20 | ISO/TC 17/SC 7 |
Steel and steel products — Vocabulary relating to chemical analysis
|
60.60 | ISO/TC 17/SC 1 |
Chemical analysis of steel — Order of listing elements in steel standards
|
95.99 | ISO/TC 17/SC 4 |
Chemical analysis of steel — Order of listing elements
|
95.99 | ISO/TC 17/SC 20 |
Chemical analysis of steel — Order of listing elements in steel standards
|
60.60 | ISO/TC 17/SC 4 |
Basic rules for specifying impact strength in steel specifications
|
95.99 | ISO/TC 17 |
Guidelines for specifying Charpy V-notch impact prescriptions in steel specifications
|
90.93 | ISO/TC 17/SC 20 |
Guidelines for specifying Charpy V-notch impact prescriptions in steel specifications
|
95.99 | ISO/TC 17/SC 20 |
Steel — Determination of niobium content — PAR spectrophotometric method
|
90.92 | ISO/TC 17/SC 1 |
Steel — Determination of aluminium content — Flame atomic absorption spectrometric method
|
95.99 | ISO/TC 17/SC 1 |
Steel — Determination of aluminium content — Flame atomic absorption spectrometric method
|
60.60 | ISO/TC 17/SC 1 |
Steel — Determination of boron content — Curcumin spectrophotometric method
|
95.99 | ISO/TC 17/SC 1 |
Steel — Determination of boron content — Curcumin spectrophotometric method
|
90.20 | ISO/TC 17/SC 1 |
Steel — Determination of manganese content — Inductively coupled plasma atomic emission spectrometric method
|
90.93 | ISO/TC 17/SC 1 |
Steel — Determination of calcium content by flame atomic absorption spectrometry — Part 1: Determination of acid-soluble calcium content
|
90.93 | ISO/TC 17/SC 1 |
Steel — Determination of calcium content by flame atomic absorption spectrometry — Part 2: Determination of total calcium content
|
90.93 | ISO/TC 17/SC 1 |
Steel — Determination of antimony content — Electrothermal atomic absorption spectrometric method
|
90.93 | ISO/TC 17/SC 1 |
Steel — Determination of high cobalt content — Potentiometric titration method after separation by ion exchange
|
90.93 | ISO/TC 17/SC 1 |
Steel — Determination of Mo, Nb and W contents in alloyed steel — Inductively coupled plasma atomic emission spectrometric method — Part 1: Determination of Mo content
|
90.93 | ISO/TC 17/SC 1 |
Steel — Determination of Mo, Nb and W contents in alloyed steel — Inductively coupled plasma atomic emission spectrometric method — Part 2: Determination of Nb content
|
90.93 | ISO/TC 17/SC 1 |
Steel — Determination of Mo, Nb and W contents in alloyed steel — Inductively coupled plasma atomic emission spectrometric method — Part 3: Determination of W content
|
90.93 | ISO/TC 17/SC 1 |
Steel — Determination of boron content — Curcumin spectrophotometric method after distillation
|
90.93 | ISO/TC 17/SC 1 |
Steel — Metallographic characterization of duplex grain size and distributions
|
90.92 | ISO/TC 17/SC 7 |
Unalloyed steel — Determination of low carbon content — Part 1: Infrared absorption method after combustion in an electric resistance furnace (by peak separation)
|
95.99 | ISO/TC 17/SC 1 |
Unalloyed steel — Determination of low carbon content — Part 2: Infrared absorption method after combustion in an induction furnace (with preheating)
|
95.99 | ISO/TC 17/SC 1 |
Unalloyed steel — Determination of low carbon content — Part 2: Infrared absorption method after combustion in an induction furnace (with preheating)
|
60.60 | ISO/TC 17/SC 1 |
Unalloyed steel — Determination of low carbon content — Part 3: Infrared absorption method after combustion in an electric resistance furnace (with preheating)
|
95.99 | ISO/TC 17/SC 1 |
Routine method for analysis of high alloy steel by X-ray fluorescence spectrometry (XRF) by using a near-by technique
|
90.93 | ISO/TC 17/SC 1 |
Steel — Determination of silicon content — Inductively coupled plasma atomic emission spectrometric method
|
60.60 | ISO/TC 17/SC 1 |
Zinc and/or aluminium based coatings on steel — Determination of coating mass per unit area and chemical composition — Gravimetry, inductively coupled plasma atomic emission spectrometry and flame atomic absorption spectrometry
|
90.93 | ISO/TC 17/SC 1 |
Preparation of metallographic specimens
|
60.60 | ISO/TC 17/SC 7 |
Life cycle inventory calculation methodology for steel products
|
90.92 | ISO/TC 17/SC 21 |
No matching records found. Please try changing the filter settings.