BS EN ISO 21068-1:2008
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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Chemical analysis of silicon-carbide-containing raw materials and refractory products General information and sample preparation
16-05-2024
30-09-2008
| Committee |
RPI/1
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| DevelopmentNote |
Supersedes 06/30159543 DC. (11/2008) Reviewed & Confirmed by BSI, July 2017. (06/2017)
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| DocumentType |
Standard
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| PublisherName |
British Standards Institution
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| Status |
Superseded
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| SupersededBy | |
| Supersedes |
This part of ISO21068 gives definitions and specifies techniques for the preparation of samples for the chemical analysis of silicon-carbide-containing raw materials and refractory products including: graphite brick containing silicon carbide; silicon carbide brick (includes the bricks containing silicon nitride); refractories containing carbon and/or silicon carbide mixed with clay; refractories containing carbon and/or silicon carbide mixed with silica (and fused silica); refractories containing carbon and/or silicon carbide mixed with high alumina material; refractories containing carbon and/or silicon carbide mixed with magnesia (and dolomite); refractories containing carbon and/or silicon carbide mixed with chrome mineral or magnesia-chrome materials; refractories containing carbon and/or silicon carbide except those described in a) to g) above. The items of chemical analysis described in ISO21068, Parts 1 to 3 are as follows: loss on drying (LOD); loss on ignition (LOI); total carbon, Ctotal; free carbon, Cfree; silicon carbide, SiC; free silicon (Sifree); free aluminium (Alfree); free magnesium (Mgfree); free iron (Fefree); silicon(IV) oxide (SiO2); aluminium oxide (Al2O3); iron(III) oxide (total iron oxide calculated as Fe2O3); titanium(IV) oxide (TiO2); calcium oxide (CaO); magnesium oxide (MgO); sodium oxide (Na2O); potassium oxide (K2O); chromium(III) oxide (Cr2O3); zirconium oxide (ZrO2); boron oxide (total boron calculated as B2O3); nitrogen; oxygen; nitrides (undifferentiated: Si3N4, AlN, BN, sialon, oxy-nitrides, etc.). The range of determination specified in this part of ISO21068 is given in Table1. Table1 Range of determination Component Range %by mass LOI –10 to 99 Ctotal 0,01 to 99 Cfree 0,01 to 99 SiC 3 to 99 Sifree 0,1 to 10 Alfree 0,1 to 10 Mgfree 0,1 to 10 Fefree 0,1 to 10 SiO2 0,1 to 95 Al2O3 0,1 to 95 Fe2O3 0,1 to 15 TiO2 0,1 to 5 CaO 0,1 to 60 MgO 0,1 to 95 Na2O 0,1 to 5 K2O 0,1 to 5 Cr2O3 0,1 to 40 ZrO2 0,1 to 1 B2O3 0,1 to 5 Si3N4 0,1 to 35
| Standards | Relationship |
| ISO 21068-1:2008 | Identical |
| EN ISO 21068-1:2008 | Identical |
| ISO 5725-1:1994 | Accuracy (trueness and precision) of measurement methods and results — Part 1: General principles and definitions |
| ISO 10081-1:2003 | Classification of dense shaped refractory products — Part 1: Alumina-silica |
| ISO 21587-1:2007 | Chemical analysis of aluminosilicate refractory products (alternative to the X-ray fluorescence method) Part 1: Apparatus, reagents, dissolution and gravimetric silica |
| ISO 21079-3:2008 | 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) |
| ISO 21587-3:2007 | Chemical analysis of aluminosilicate refractory products (alternative to the X-ray fluorescence method) Part 3: Inductively coupled plasma and atomic absorption spectrometry methods |
| ISO 5022:1979 | Shaped refractory products — Sampling and acceptance testing |
| ISO 12677:2011 | Chemical analysis of refractory products by X-ray fluorescence (XRF) Fused cast-bead method |
| EN 12698-1:2007 | Chemical analysis of nitride bonded silicon carbide refractories - Part 1: Chemical methods |
| ISO 9286:1997 | Abrasive grains and crude Chemical analysis of silicon carbide |
| ISO 21079-2:2008 | 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 |
| ISO 11648-2:2001 | Statistical aspects of sampling from bulk materials — Part 2: Sampling of particulate materials |
| ISO 21587-2:2007 | Chemical analysis of aluminosilicate refractory products (alternative to the X-ray fluorescence method) Part 2: Wet chemical analysis |
| ISO 10081-4:2014 | Classification of dense shaped refractory products — Part 4: Special products |
| ISO 31-0:1992 | Quantities and units Part 0: General principles |
| ISO 10081-3:2003 | Classification of dense shaped refractory products — Part 3: Basic products containing from 7 % to 50 % residual carbon |
| ISO 1927:1984 | Prepared unshaped refractory materials (dense and insulating) Classification |
| ISO 10060:1993 | Dense, shaped refractory products — Test methods for products containing carbon |
| ISO 21068-2:2008 | 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 |
| EN 1094-4:1995 | Insulating refractory products - Part 4: Determination of bulk density and true porosity |
| EN 12698-2:2007 | Chemical analysis of nitride bonded silicon carbide refractories - Part 2: XRD methods |
| ISO 10081-2:2003 | Classification of dense shaped refractory products — Part 2: Basic products containing less than 7 % residual carbon |
| ISO 26845:2008 | Chemical analysis of refractories General requirements for wet chemical analysis, atomic absorption spectrometry (AAS) and inductively coupled plasma atomic emission spectrometry (ICP-AES) methods |
| ISO 8656-1:1988 | Refractory products — Sampling of raw materials and unshaped products — Part 1: Sampling scheme |
| ISO 21079-1:2008 | 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 |
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