Фильтр :
Стандарт и/или проект находящийся в компетенции ISO/TC 33 Секретариата Этап ICS
Dimensions of rectangular refractory bricks
95.99
Refractory products — Determination of pyrometric cone equivalent (refractoriness)
90.93
Terminology for refractories
90.93
Vocabulary for the refractories industry
95.99
Refractory products — Classification of dense shaped refractory products
95.99
Dimensions of refractory arch bricks
95.99
Pyrometric reference cones for laboratory use — Specification
90.93
Pyrometric reference cones
95.99
Refractory products — Determination of refractoriness-under-load (differential - with rising temperature)
95.99
Refractory products — Determination of refractoriness under load (Differential — With rising temperature)
95.99
Refractory products — Determination of refractoriness-under-load — Differential method with rising temperature
95.99
Refractory products — Determination of refractoriness under load — Differential method with rising temperature
90.93
Monolithic (unshaped) refractory products — Part 1: Introduction and classification
90.93
Monolithic (unshaped) refractory products — Part 2: Sampling for testing
90.93
Monolithic (unshaped) refractory products — Part 3: Characterization as received
90.93
Monolithic (unshaped) refractory products — Part 4: Determination of consistency of castables
90.93
Monolithic (unshaped) refractory products — Part 5: Preparation and treatment of test pieces
90.93
Monolithic (unshaped) refractory products — Part 6: Measurement of physical properties
90.93
Monolithic (unshaped) refractory products — Part 7: Tests on pre-formed shapes
90.93
Monolithic (unshaped) refractory products — Part 8: Determination of complementary properties
90.93
Refractory products — Classification of prepared unshaped refractory materials (dense and insulating)
95.99
Prepared unshaped refractory materials (dense and insulating) — Classification
95.99
Shaped insulating refractory products — Classification
95.99
Shaped insulating refractory products — Classification
95.99
Shaped insulating refractory products — Classification
90.93
Dense shaped refractory products — Nomenclature of manufacturing processes
95.99
Shaped insulating refractory products — Determination of the permanent change in dimensions on heating
95.99
Shaped insulating refractory products — Determination of permanent change in dimensions on heating
95.99
Shaped insulating refractory products — Determination of permanent change in dimensions on heating
90.20
Dense shaped refractory products — Determination of the permanent changes in dimensions on heating
95.99
Dense shaped refractory products — Determination of permanent change in dimensions on heating
90.92
Dense shaped refractory products — Determination of permanent change in dimensions on heating
40.00
Refractory products — Determination of creep in compression
90.93
Refractory products — Determination of modulus of rupture at elevated temperatures
90.93
Refractory products — Determination of modulus of rupture at ambient temperature
95.99
Dense and insulating shaped refractory products — Determination of modulus of rupture at ambient temperature
90.92
Dense and insulating shaped refractory products — Determination of modulus of rupture at ambient temperature
40.60
Shaped insulating refractory products — Determination of bulk density and true porosity
95.99
Shaped insulating refractory products — Determination of bulk density and true porosity
90.93
Dense shaped refractory products — Determination of bulk density, apparent porosity and true porosity
95.99
Dense shaped refractory products — Determination of bulk density, apparent porosity and true porosity
95.99
Dense shaped refractory products — Determination of bulk density, apparent porosity and true porosity
90.92
Dense shaped refractory products — Determination of bulk density, apparent porosity and true porosity
40.00
Refractory materials — Determination of true density
90.93
Refractory bricks — Dimensions — Part 1: Rectangular bricks
90.93
Refractory bricks — Dimensions — Part 2: Arch bricks
90.93
Refractory bricks — Dimensions — Part 3: Rectangular checker bricks for regenerative furnaces
90.93
Refractory bricks — Dimensions — Part 4: Dome bricks for electric arc furnace roofs
95.99
Refractory bricks — Dimensions — Part 4: Dome bricks for electric arc furnace roofs
90.93
Refractory bricks — Dimensions — Part 5: Skewbacks
90.93
Refractory bricks — Dimensions — Part 6: Basic bricks for oxygen steel-making converters
95.99
Refractory bricks — Dimensions — Part 6: Basic bricks for oxygen steel-making converters
90.93
Shaped refractory products — Sampling and acceptance testing
90.93
Refractory bricks for use in rotary kilns — Dimensions
90.93
Refractory products — Sampling of raw materials and unshaped products — Part 1: Sampling scheme
90.93
Refractory materials — Determination of bulk density of granular materials (grain density)
95.99
Refractory materials — Determination of bulk density of granular materials (grain density)
60.60
Dense, shaped refractory products — Determination of permeability to gases
90.93
Dense shaped refractory products — Determination of resistance to sulfuric acid
90.93
Refractory materials — Determination of thermal conductivity — Part 1: Hot-wire method (cross-array)
95.99
Refractory materials — Determination of thermal conductivity — Part 1: Hot-wire methods (cross-array and resistance thermometer)
90.93
Refractory materials — Determination of thermal conductivity — Part 2: Hot-wire method (parallel)
95.99
Refractory materials — Determination of thermal conductivity — Part 2: Hot-wire method (parallel)
90.93
Shaped insulating refractory products — Determination of cold crushing strength
95.99
Shaped insulating refractory products — Determination of cold crushing strength
90.93
Refractory bricks for use in rotary kilns — Hot-face identification marking
90.93
Chemical analysis of magnesite and dolomite refractory products (alternative to the X-ray fluorescence method) — Part 1: Apparatus, reagents, dissolution and determination of gravimetric silica
90.93
Chemical analysis of magnesite and dolomite refractory products (alternative to the X-ray fluorescence method) — Part 2: Wet chemical analysis
90.93
Chemical analysis of magnesite and dolomite refractory products (alternative to the X-ray fluorescence method) — Part 3: Flame atomic absorption spectrophotometry (FAAS) and inductively coupled plasma atomic emission spectrometry (ICP-AES)
90.93
Magnesites and dolomites — Chemical analysis
95.99
Dense, shaped refractory products — Determination of cold compressive strength — Part 1: Referee test without packing
90.92
Dense shaped refractory products — Determination of cold compressive strength — Part 1: Referee test without packing
40.60
Dense, shaped refractory products — Determination of cold compressive strength — Part 2: Test with packing
90.93
Dense, shaped refractory products — Test methods for products containing carbon
90.93
Refractory products — Classification of dense, shaped acid-resisting products
90.93
Basic refractory products — Classification — Part 1: Products containing less than 7 % residual carbon
95.99
Classification of dense shaped refractory products — Part 1: Alumina-silica
90.93
Classification of dense shaped refractory products — Part 2: Basic products containing less than 7 % residual carbon
90.93
Classification of dense shaped refractory products — Part 2: Basic products containing less than 7 % residual carbon — Technical Corrigendum 1
60.60
Classification of dense shaped refractory products — Part 3: Basic products containing from 7 % to 50 % residual carbon
90.93
Classification of dense shaped refractory products — Part 4: Special products
95.99
Classification of dense shaped refractory products — Part 4: Special products
90.93
Refractory products — Methods of test for ceramic fibre products
90.20
Refractory products — Determination of resistance to carbon monoxide
90.93
Chemical analysis of refractory products by XRF — Fused cast bead method
95.99
Chemical analysis of refractory products by X-ray fluorescence (XRF) — Fused cast-bead method
90.93
Refractory products — Measurement of dimensions and external defects of refractory bricks — Part 1: Dimensions and conformity to drawings
90.93
Refractory products — Measurement of dimensions and external defects of refractory bricks — Part 2: Corner and edge defects and other surface imperfections
90.93
Methods of test for refractory products — Part 1: Determination of dynamic Young's modulus (MOE) by impulse excitation of vibration
90.20
Refractory mortars — Part 1: Determination of consistency using the penetrating cone method
90.93
Refractory mortars — Part 2: Determination of consistency using the reciprocating flow table method
90.93
Refractory mortars — Part 3: Determination of joint stability
90.93
Refractory mortars — Part 4: Determination of flexural bonding strength
90.93
Refractory mortars — Part 5: Determination of grain size distribution (sieve analysis)
90.93
Refractory mortars — Part 6: Determination of moisture content of ready-mixed mortars
90.93
Refractory mortars — Part 7: Determination of permanent change in dimensions on heating
60.60
Chemical analysis of refractory material glass and glazes — Determination of Fe2+ and Fe3+ by the spectral photometric method with 1,10-phenanthroline
90.92
Chemical analysis of refractory material glass and glazes — Determination of Fe2+ and Fe3+ by the spectral photometric method with 1,10-phenanthroline
30.99
Testing of ceramic raw and basic materials — Determination of sulfur in powders and granules of non-oxidic ceramic raw and basic materials — Part 1: Infrared measurement methods
90.92
Testing of ceramic materials - Determination of sulfur in non-oxidic ceramic raw materials and ceramic materials — Part 1: Infrared measurement methods
30.99
Testing of ceramic raw and basic materials — Determination of sulfur in powders and granules of non-oxidic ceramic raw and basic materials — Part 2: Inductively coupled plasma optical emission spectrometry (ICP/OES) or ion chromatography after burning in an oxygen flow
90.92
Testing of ceramic materials - Determination of sulfur in non-oxidic ceramic raw materials and ceramic materials — Part 2: inductively coupled plasma optical emission spectrometry (ICP-OES) or ion chromatography (IC) after burning in the oxygen flow
30.99
Preparation of silicon carbide and similar materials for analysis by ISO 12677 X-ray fluorescence (XRF) — Fused cast-bead method
90.93
Phase quantitative analysis of residual quartz in silica bricks — X-ray diffraction method
40.20
Methods of test for dense shaped refractory products — Determination of resistance to abrasion at ambient temperature
90.93
Monolithic refractory products — Determination of resistance to explosive spalling
90.93
Refractory materials — Determination of abrasion resistance at elevated temperature
90.93
Refractory products — Determination of thermal expansion
90.60
Refractory test-piece preparation — Gunning refractory panels by wet gunning techniques
90.93
Refractory test piece preparation — Gunning refractory panels by the pneumatic-nozzle mixing type guns
95.99
Refractory test-piece preparation — Gunning refractory panels by the pneumatic-nozzle mixing type guns
95.99
Refractory test-piece preparation — Gunning refractory panels by the pneumatic-nozzle mixing type guns
60.60
Chemical analysis of chrome-bearing refractory products and chrome-bearing raw materials (alternative to the X-ray fluorescence method) — Part 1: Apparatus, reagents, dissolution and determination of gravimetric silica
90.93
Chemical analysis of chrome-bearing refractory products and chrome-bearing raw materials (alternative to the X-ray fluorescence method) — Part 2: Wet chemical analysis
90.93
Chemical analysis of chrome-bearing refractory products and chrome-bearing raw materials (alternative to the X-ray fluorescence method) — Part 3: Flame atomic absorption spectrometry (FAAS) and inductively coupled plasma atomic emission spectrometry (ICP-AES)
90.93
Chemical analysis of silicon-carbide-containing raw materials and refractory products — Part 1: General information and sample preparation
95.99
Chemical analysis of raw materials and refractory products containing silicon-carbide, silicon-nitride, silicon-oxynitride and sialon — Part 1: General information, terminology and sample preparation
60.60
Chemical analysis of silicon-carbide-containing raw materials and refractory products — Part 2: Determination of loss on ignition, total carbon, free carbon and silicon carbide, total and free silica and total and free silicon
95.99
Chemical analysis of raw materials and refractory products containing silicon-carbide, silicon-nitride, silicon-oxynitride and sialon — Part 2: Determination of volatile components, total carbon, free carbon, silicon carbide, total and free silicon, free and surface silica
60.60
Chemical analysis of silicon-carbide-containing raw materials and refractory products — Part 3: Determination of nitrogen, oxygen and metallic and oxidic constituents
95.99
Chemical analysis of raw materials and refractory products containing silicon-carbide, silicon-nitride, silicon-oxynitride and sialon — Part 3: Determination of nitrogen, oxygen and metallic and oxidic constituents
60.60
Chemical analysis of raw materials and refractory products containing silicon-carbide, silicon-nitride, silicon-oxynitride and sialon — Part 4: XRD methods
60.60
Determination of boron (III) oxide in refractory products — Part 1: Determination of total boron (III) oxide in oxidic materials for ceramics, glass and glazes
90.93
Determination of boron(III) oxide in refractory products — Part 2: Acid extraction method for the determination of boron(III) oxide in binder components
90.20
Chemical analysis of refractories containing alumina, zirconia and silica — Refractories containing 5 percent to 45 percent of ZrO2 (alternative to the X-ray fluorescence method) — Part 1: Apparatus, reagents and dissolution
90.93
Chemical analysis of refractories containing alumina, zirconia, and silica — Refractories containing 5 percent to 45 percent of ZrO2 (alternative to the X-ray fluorescence method) — Part 2: Wet chemical analysis
90.93
Chemical analysis of refractories containing alumina, zirconia, and silica — Refractories containing 5 percent to 45 percent of ZrO2 (alternative to the X-ray fluorescence method) — Part 3: Flame atomic absorption spectrophotometry (FAAS) and inductively coupled plasma emission spectrometry (ICP -AES)
90.93
Chemical analysis of aluminosilicate refractory products (alternative to the X-ray fluorescence method) — Part 1: Apparatus, reagents, dissolution and gravimetric silica
90.93
Chemical analysis of aluminosilicate refractory products (alternative to the X-ray fluorescence method) — Part 2: Wet chemical analysis
90.93
Chemical analysis of aluminosilicate refractory products (alternative to the X-ray fluorescence method) — Part 3: Inductively coupled plasma and atomic absorption spectrometry methods
90.93
Refractories — Test methods for thermal shock resistance
60.60
Guidance on standards available for preparation and testing of monolithic, unshaped refractory products
60.60
Determination of sulfur in refractory products and raw materials by gravimetric, photometric and titrimetric methods
90.93
Refractories — Determination of dynamic Young’s modulus (MOE) at elevated temperatures by impulse excitation of vibration
60.60
Refractory products — Determination of compressive strength at elevated temperature
60.60
Refractory products — Determination of reduced species in carbon containing refractories by XRD
60.60
Chemical analysis of refractories — General requirements for wet chemical analysis, atomic absorption spectrometry (AAS) and inductively coupled plasma atomic emission spectrometry (ICP-AES) methods
90.93

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