BS EN 10315:2006
Current
The latest, up-to-date edition.
Routine method for analysis of high alloy steel by X-ray fluorescence spectrometry (XRF) by using a near by technique
Hardcopy , PDF
English
09-30-2009
Foreword
1 Scope
2 Normative references
3 Principle
4 Reagents
5 Apparatus
6 Safety precautions
7 Sampling
8 Final sample preparation
9 Procedure
10 Calibration
11 Standardization
12 Statistical Process Control (SPC) parameters
13 "Near by technique" method
14 Test report
Annex A (normative) - Precision
Annex B (normative) - Graphical representation of precision
data
Bibliography
Describes a procedure on how to improve the performance of a routine XRF method, already in use for analysis of high alloy steels, by using a "near by technique".
Committee |
ISE/1
|
DevelopmentNote |
Supersedes 99/713922 DC. (09/2009) Reviewed and confirmed by BSI, September 2010. (08/2010)
|
DocumentType |
Standard
|
Pages |
32
|
PublisherName |
British Standards Institution
|
Status |
Current
|
Supersedes |
This European Standard specifies a procedure on how to improve the performance of a routine XRF method, already in use for analysis of high alloy steels, by using a ”near by technique”. The ”near by technique” requires at least one target sample (preferable a CRM) of a similar composition as the unknown sample. The method is applicable to elements within the concentration ranges according to Table 1: Table 1 — Concentration ranges Element Concentration range, % (m/m) a Si 0,05 to 1,5 Mn 0,05 to 5,0 P 0,005 to 0,035 Cr 10 to 25 Ni 0,1 to 30 Mo 0,1 to 6,5 Cu 0,02 to 1,5 Co 0,015 to 0,30 V 0,015 to 0,15 Ti 0,015 to 0,50 Nb 0,05 to 1,0 a The concentration ranges specified, represents those ranges studied during the precision test. The procedure has the potential to be used outside those ranges but it needs to be validated by each laboratory in every case. The method is applicable to analysis of either chill-cast or wrought samples having a diameter of at least 25 mm and with a carbon concentration of less than 0,3 % (see NOTE). Other elements should have a concentration below 0,2 %. NOTE High carbon concentrations, in combination with high Mo and Cr concentrations, could have undesirable structural effects on the sample and could affect the determination of phosphorus and chromium, in particular. Matrix effects exist between the elements listed. To compensate for those inter-element effects, mathematical corrections shall be applied. A variety of computer programs for corrections is commonly used and included in the software package from the manufacturers.
Standards | Relationship |
EN 10315:2006 | Identical |
EN ISO 14284:2002 | Steel and iron - Sampling and preparation of samples for the determination of chemical composition (ISO 14284:1996) |
ISO 4946:2016 | Steel and cast iron Determination of copper 2,2'-Biquinoline spectrophotometric method |
ISO 11652:1997 | Steel and iron Determination of cobalt content Flame atomic absorption spectrometric method |
ISO 4829-1:1986 | Steel and cast iron Determination of total silicon content Reduced molybdosilicate spectrophotometric method Part 1: Silicon contents between 0,05 and 1,0 % |
EN ISO 10714:2002 | Steel and iron - Determination of phophorus content - Phosphovanadomolybdate spectrophotometric method (ISO 10714:1992) |
ISO 4937:1986 | Steel and iron — Determination of chromium content — Potentiometric or visual titration method |
EN ISO 10700:1995 | Steel and iron - Determination of manganese content - Flame atomic spectrometric method (ISO 10700:1994) |
ISO Guide 35:2017 | Reference materials — Guidance for characterization and assessment of homogeneity and stability |
ISO 10280:1991 | Steel and iron — Determination of titanium content — Diantipyrylmethane spectrometric method |
ISO 4938:2016 | Steel and iron Determination of nickel content Gravimetric or titrimetric method |
ISO 4942:2016 | Steels and irons Determination of vanadium content N-BPHA spectrophotometric method |
EN ISO 10280 : 1995 | STEEL AND IRON - DETERMINATION OF TITANIUM CONTENT - DIANTIPYRYLMETHANE SPECTROPHOTOMETRIC METHOD |
ISO/TS 13899-1:2004 | Steel — Determination of Mo, Nb and W contents in alloyed steel — Inductively coupled plasma atomic emission spectrometric method — Part 1: Determination of Mo content |
ISO 10700:1994 | Steel and iron — Determination of manganese content — Flame atomic absorption spectrometric method |
ISO 10714:1992 | Steel and iron — Determination of phosphorus content — Phosphovanadomolybdate spectrophotometric method |
ISO 4829-2:2016 | Steels Determination of total silicon contents Reduced molybdosilicate spectrophotometric method Part 2: Silicon contents between 0,01 % and 0,05 % |
ISO 9441:1988 | Steel — Determination of niobium content — PAR spectrophotometric method |
CR 10299 : 1998 | GUIDELINES FOR THE PREPARATION OF STANDARD ROUTING METHODS WITH WAVELENGTH-DISPERSIVE X-RAY FLUORESCENCE SPECTROMETRY |
ISO 14284:1996 | Steel and iron — Sampling and preparation of samples for the determination of chemical composition |
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