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ISO

ISO 7627-4:1983

(Main)

Hardmetals - Chemical analysis by flame atomic absorption spectrometry - Part 4: Determination of molybdenum, titanium and vanadium in contents from 0,01 to 0,5 % (m/m)

Hardmetals - Chemical analysis by flame atomic absorption spectrometry - Part 4: Determination of molybdenum, titanium and vanadium in contents from 0,01 to 0,5 % (m/m)

General requirements concerning the field of application, principle, interfering elements,aparatus, sampling and test report are given in ISO 7627-1.

Métaux-durs — Analyse chimique par spectrométrie d'absorption atomique dans la flamme — Partie 4: Dosage du molybdène, du titane et du vanadium à des teneurs comprises entre 0,01 et 0,5 % (m/m)

La présente partie de l'ISO 7627 spécifie la méthode à utiliser pour le dosage par spectrométrie d'absorption atomique dans la flamme du molybdène, du titane et du vanadium dans les métaux-durs, à des teneurs en chacun de ces éléments comprises entre 0,01 et 0,05 % (m/m). Les prescriptions générales concernant le domaine d'application, le principe, les interférences, l'appareillage, l'échantillonnage et le procès-verbal d'essai figurent dans l'ISO 7627/1.

General Information

Status
Published
Publication Date
30-Sep-1983
ICS
77.160 - Powder metallurgy
Technical Committee
ISO/TC 119/SC 4 - Sampling and testing methods for hardmetals
Drafting Committee
ISO/TC 119/SC 4 - Sampling and testing methods for hardmetals
Current Stage
9093 - International Standard confirmed
Start Date
12-Dec-2025
Completion Date
27-Dec-2025
Ref Project

Overview

ISO 7627-4:1983 specifies a standardized method for the chemical analysis of hardmetals using flame atomic absorption spectrometry (FAAS). This part focuses on the determination of molybdenum, titanium, and vanadium within concentrations ranging from 0.01% to 0.5% by mass (m/m). The standard supports consistent, accurate, and reproducible testing of these critical alloying elements in hardmetals, which are widely used in industries requiring materials with exceptional hardness and wear resistance.

The document is part of a broader series on hardmetal analysis, with general requirements, sampling, apparatus, and reporting guidelines detailed in ISO 7627-1. ISO 7627-4 complements these by providing specific procedures for molybdenum (Mo), titanium (Ti), and vanadium (V) quantification.

Key Topics

  • Scope and Application
    Applicable to hard metals requiring precise quantification of Mo, Ti, and V within 0.01% to 0.5% content to ensure quality and compliance with technical specifications.

  • Analytical Principle
    Relies on flame atomic absorption spectrometry for chemical analysis, utilizing the absorption of radiation at specific wavelengths corresponding to each element.

  • Sample Preparation
    Dissolution using a mixture of hydrofluoric acid (HF) and nitric acid (HNO3), aided by ammonium fluoride and cesium chloride as matrix modifiers to stabilize the solution and minimize interferences.

  • Calibration and Standards
    Preparation of calibration solutions closely matching the sample matrix, covering the expected concentration ranges, and including blank and diluted matrices when necessary.

  • Instrument Settings
    Specific wavelengths are used for Mo (313.3 nm), Ti (364.3 nm), and V (318.4 nm) with the use of a nitrous oxide (N2O) flame oxidant to optimize sensitivity.

  • Measurement and Calculation
    Absorbance readings are converted to concentration values using calibration curves; the formula accounts for dilution volumes and sample mass to express the final content as percent by mass.

  • Accuracy and Tolerances
    The method ensures high precision with the allowed variance between triplicate determinations limited to 0.2 times the measured percentage, promoting reliability in quantitative results.

Applications

ISO 7627-4:1983 is essential for industries and laboratories that manufacture or test:

  • Cutting tools and wear parts made from hardmetal composites, ensuring optimal mechanical properties by verifying alloying element content.
  • Powder metallurgy sectors producing sintered hardmetals where precise chemical composition influences final product performance.
  • Quality control and R&D laboratories developing new hardmetal grades or troubleshooting production issues related to raw material inconsistency.
  • Compliance verification with customer or regulatory specifications requiring traceability and documented test reports for molybdenum, titanium, and vanadium content.

Using this standard enables optimized material performance, longevity, and safety in applications demanding superior hardness and wear resistance.

Related Standards

  • ISO 7627-1: General characteristics for chemical analysis of hardmetals by flame atomic absorption spectrometry
    Provides foundational guidelines for sample preparation, apparatus requirements, and reporting.

  • ISO 4499: Sintered hardmetals - Chemical analysis methods
    Complements ISO 7627 technology by covering additional chemical analysis techniques for sintered materials.

  • ASTM E1613: Standard Test Method for Metals by Flame Atomic Absorption Spectroscopy
    Offers alternative but comparable FAAS procedures which may be cross-referenced for molecular analysis.

  • ISO 9001: Quality management systems
    Ensures quality assurance processes align with chemical analysis practices described in ISO 7627-4.

Keywords: ISO 7627-4, hardmetals, chemical analysis, flame atomic absorption spectrometry, FAAS, molybdenum determination, titanium analysis, vanadium quantification, powder metallurgy, quality control, alloy composition, analytical standards.

ISO 7627-4:1983 - Hardmetals -- Chemical analysis by flame atomic absorption spectrometryISO 7627-4:1983 - Hardmetals -- Chemical analysis by flame atomic absorption spectrometry
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Frequently Asked Questions

ISO 7627-4:1983 is a standard published by the International Organization for Standardization (ISO). Its full title is "Hardmetals - Chemical analysis by flame atomic absorption spectrometry - Part 4: Determination of molybdenum, titanium and vanadium in contents from 0,01 to 0,5 % (m/m)". This standard covers: General requirements concerning the field of application, principle, interfering elements,aparatus, sampling and test report are given in ISO 7627-1.

General requirements concerning the field of application, principle, interfering elements,aparatus, sampling and test report are given in ISO 7627-1.

ISO 7627-4:1983 is classified under the following ICS (International Classification for Standards) categories: 77.160 - Powder metallurgy. The ICS classification helps identify the subject area and facilitates finding related standards.

You can purchase ISO 7627-4:1983 directly from iTeh Standards. The document is available in PDF format and is delivered instantly after payment. Add the standard to your cart and complete the secure checkout process. iTeh Standards is an authorized distributor of ISO standards.

Standards Content (Sample)


International Standard 762714
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION.MEX~YHAPOAHAR OPTAHM3AUMR fl0 CTAH~APTM3A~MM.ORGANlSATlON INTERNATIONALE DE NORMALISATION
Hardmetals - Chemical analysis by flame ’.atomic
absorption spectrometry -
Part 4: Determination of molybdenum, titanium and
vanadium in contents from 0,Ol to 0,5 % (mlm)
Mkaux-durs - Analyse cbimique par spectrometrie d ’absorp tion a tomique dans Ia flamme - Partie 4: Dosage du mo/ybd&ne,
du titane et du vanadium a des teneurs comprises entre Q,Ol et 0,5 % (mlm)
First edition
- 1983-10-15
-
.
r .<
UDC 669.018.25 : 643.422
’ Ref. No. ISO 7627/4-1983 (EI

Foreword
ISO (the International Organization for Standardization) is a worldwide federation of
national Standards bodies (ISO member bodies). The work of developing International
Standards is carried out through ISO technical committees. Every member body
interested in a subject for which a technical committee has been authorized has the
right to be represented on that committee. International organizations, governmental
and non-governmental, in liaison with ISO, also take patt in the work.
Draft International Standards adopted by the technical committees are circulated to
the member bodiesfor approval before their acceptance as International Standards by
the ISO Council.
International Standard ISO 7627/4 was developed by Technical Committee
ISO/TC 119, Powder metahrgy, and was circulated to the member bodies in
August 1982.
lt has been approved by the member bodies of the following countries:
Spain
Austria Germany, F. R.
Brazil Italy Sweden
Switzerland
Bulgaria Korea, Rep. of
China Norway United Kingdom
Czechoslovakia Poland USA
Egypt, Arab Rep. of Romania USSR
South Africa, Rep. of
France
No member body expressed disapproval of the document.
0 International Organkation for Standardkation, 1983 0
Printed in Switzerland
INTERNATIONAL STANDARD ISO 7627/4-1983 (E)
Hardmetals - Chemical analysis by flame atomic
absorption spectrometry -
Part 4: Determination of molybdenum, titanium and
vanadium in contents from 0,Ol to 0,5 % (mlm)
.
1 Scope and field of application 4.2 Dissolution of the test Portion
This part of ISO 7627 specifies the method to be used for the
Add 10 ml of water, 5 ml of the hydrofluoric acid (3.1). and
determination of molybdenum, titanium and vanadium con- then 5 ml of the nitric acid (3.21, drop by drop, to the beaker
tents of hardmetals within the range 0,Ol to 0,5 % (Nm) by
containing the test Portion (4.1) and heat gently until the test
flame atomic absorption spectrometry.
Portion is completely dissolved. Add 10 ml of the caesium
chloride Solution (3.4) and 10 ml of the ammonium fluoride
General requirements concerning the fieid of application, prin- Solution (3.3). Then transfer the Solution totally to a 100 ml
ciple, interfering elements, apparatus, sampling and test report polypropylene one-mark volumetric flask and dilute to the
are given in ISO 7627/1. mark.
4.3 Dilution volume
2 Reference
Prepare the relevant dilution volume for the analysis according
ISO 762711, Hardmetals - Chemical analysis b y flame atomic
to table 1 as follows:
absorp tion spectrometry - Part 7: General requirements. .
4.3.1 Dilution volume 100 ml: use the Solution in 4.2.
3 Reagents
4.3.2 The concentration of the Solution may be reduced by a
3.1 Hydrofluoric acid, Q 1,12 g/ml.
factor of 10 for instruments of higher sensitivity by transferring
10 ml of the solution in 4.2 to a 100 ml polypropylene one-mark
3.2 Nitrit acid, Q 1,42 g/ml.
volumetric flask. Add 10 ml of the caesium chloride Solution
(3.4). Add 10 ml ‘of the ammonium fluoride Solution (3.3) and
dilute to the mark.
3.3 Ammonium fluoride, 0,l g/ml solution.
3.4 Caesium chloride, 0,Ol g/ml
...


Norme internationale
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION.ME>)(LLYHAPOAHAR OPfAHM3AUIlR f-l0 CTAHAAPTM3AlJ4M.ORGANISATION INTERNATIONALE DE NORMALISATION
Métaux-durs - Analyse chimique par spectrométrie
d’absorption atomique dans la flamme -
Partie 4: Dosage du molybdène, du titane et du vanadium
à des teneurs comprises entre 0,Ol et 0,5 % (mlm)
- Chemical analysis b y flame atomic absorption spectrometry - ‘ Part 4: Determination. of molybdenum, titanium
Hardmetals
and vanadium in contents from O,Ol to 0,5 % (mImI
Première Adition - 1983-10-15
G:
Y
CDU 669.018.25 : 643.422
Réf.-no : ISO 7627/4-1983 (F)
F
Descripteurs : m&al-dur, analyse chimique, dosage, molybdéne, titane, vanadium, spectrométrie d’absorption atomique.
Prix basé sur 2 pages
Avant-propos
L’ISO (Organisation internationale de normalisation) est une fédération mondiale
d’organismes nationaux de normalisation (comites membres de I’ISO). L’élaboration
des Normes internationales est confiée aux comites techniques de I’ISO. Chaque
comité membre interesse par une etude a le droit de faire partie du comite technique
correspondant. Les organisations internationales, gouvernementales et non gouverne-
mentales, en liaison avec I’ISO, participent egalement aux travaux.
Les projets de Normes internationales adoptés par les comites techniques sont soumis
aux comites membres pour approbation, avant leur acceptation comme Normes inter-
nationales par le Conseil de I’ISO.
La Norme internationale ISO 7627/4 a été elaboree par le comité technique
ISO/TC 119, Métahrgie des poudres, et a et6 soumise aux comités membres en
août 1982.
Les comités membres des pays suivants l’ont approuvee:
Afrique du Sud, Rep. d’ Égypte, Rep. arabe d’ Royaume-Uni
Allemagne, R. F. Espagne Suéde
Autriche France Suisse
Bresil Italie Tchecoslovaquie
Bulgarie Norvbge URSS
Chine
Pologne USA
Corde, Rép. de
Roumanie
Aucun comite membre ne l’a desapprouvee.
0 Organisation internationale de normalisation, 1983 l
Imprime en Suisse
NORME INTERNATIONALE ISO 762714-1963 (F)
- Analyse chimique par spectrométrie
Métaux-durs
d’absorption atomique dans la flamme -
Partie 4: Dosage du molybdène, du titane et du vanadium
à des teneurs comprises entre 0,Ol et 0,5 % (mlm)
1 Objet et domaine d’application
4.2 Mise en solution
La présente partie de I’ISO 7627 spécifie la méthode à utiliser
Ajouter 10 ml d’eau, 5 ml d’acide fluorhydrique (3.11, puis
pour le dosage par spectrométrie d’absorption atomique dans goutte à goutte, 5 ml d’acide nitrique (3.2) dans le bécher con-
la flamme du molybdène, du titane et du vanadium dans les tenant la prise d’essai (4.1) et chauffer doucement jusqu’à dis-
métaux-durs, à des teneurs en chacun de ces éléments compri-
solution complete de la prise d’essai. Ajouter 10 ml de solution
ses entre 0,Ol et 0,05 % (mlm).
de chlorure de cesium (3.4) et 10 ml de solution de fluorure
d’ammonium (3.3). Transvaser alors la solution totalement
Les prescriptions générales concernant le domaine d’applica-
dans une fiole jaugée en polypropylene de 100 ml et compléter
tion, le principe, les interférences, l’appareillage, I’échantillon-
jusqu’au trait de jauge.
nage et le procès-verbal d’essai figurent dans I’ISO 7627/1.
4.3 Volume de dilution
2 Réfhence
Préparer le volume de dilution servant pour l’analyse, confor-
- Analyse chimique par spectromé- mément au tableau 1, de la manière suivante.
ISO 762711, Métaux-durs
trie d’absorption atomique dans la flamme - Partie 1: Caracté-
ris tiques ghérales.
4.3.1 Volume de dilution 100 ml: utiliser la solution de 4.2.
3 Réactifs
4.3.2 La concentration de la solution peut être réduite dans
un rapport de 10 pour les appareils à haute sensibilité par trans-
vasement de 10 ml de solution de 4.2 dans une fiole jaugée en
3.1 Acide fluorhydrique, Q 1,12 g/ml.
polypropyléne de 100 ml. Ajouter 10 ml de solution de chlorure
de césium (3.41, puis 10 ml de solution de chlorure d’ammo-
3.2 Acide nitrique, Q 1,42 g/ml.
nium (3.3) et compléter jusqu’au trait de jauge.
3.3 Fluorure d’ammonium, solution à 0,l g/ml.
4.4 Prdparation des solutions d%talonnage et
d’essaj 4 blanc
3.4 Chloru
...


Norme internationale
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION.ME>)(LLYHAPOAHAR OPfAHM3AUIlR f-l0 CTAHAAPTM3AlJ4M.ORGANISATION INTERNATIONALE DE NORMALISATION
Métaux-durs - Analyse chimique par spectrométrie
d’absorption atomique dans la flamme -
Partie 4: Dosage du molybdène, du titane et du vanadium
à des teneurs comprises entre 0,Ol et 0,5 % (mlm)
- Chemical analysis b y flame atomic absorption spectrometry - ‘ Part 4: Determination. of molybdenum, titanium
Hardmetals
and vanadium in contents from O,Ol to 0,5 % (mImI
Première Adition - 1983-10-15
G:
Y
CDU 669.018.25 : 643.422
Réf.-no : ISO 7627/4-1983 (F)
F
Descripteurs : m&al-dur, analyse chimique, dosage, molybdéne, titane, vanadium, spectrométrie d’absorption atomique.
Prix basé sur 2 pages
Avant-propos
L’ISO (Organisation internationale de normalisation) est une fédération mondiale
d’organismes nationaux de normalisation (comites membres de I’ISO). L’élaboration
des Normes internationales est confiée aux comites techniques de I’ISO. Chaque
comité membre interesse par une etude a le droit de faire partie du comite technique
correspondant. Les organisations internationales, gouvernementales et non gouverne-
mentales, en liaison avec I’ISO, participent egalement aux travaux.
Les projets de Normes internationales adoptés par les comites techniques sont soumis
aux comites membres pour approbation, avant leur acceptation comme Normes inter-
nationales par le Conseil de I’ISO.
La Norme internationale ISO 7627/4 a été elaboree par le comité technique
ISO/TC 119, Métahrgie des poudres, et a et6 soumise aux comités membres en
août 1982.
Les comités membres des pays suivants l’ont approuvee:
Afrique du Sud, Rep. d’ Égypte, Rep. arabe d’ Royaume-Uni
Allemagne, R. F. Espagne Suéde
Autriche France Suisse
Bresil Italie Tchecoslovaquie
Bulgarie Norvbge URSS
Chine
Pologne USA
Corde, Rép. de
Roumanie
Aucun comite membre ne l’a desapprouvee.
0 Organisation internationale de normalisation, 1983 l
Imprime en Suisse
NORME INTERNATIONALE ISO 762714-1963 (F)
- Analyse chimique par spectrométrie
Métaux-durs
d’absorption atomique dans la flamme -
Partie 4: Dosage du molybdène, du titane et du vanadium
à des teneurs comprises entre 0,Ol et 0,5 % (mlm)
1 Objet et domaine d’application
4.2 Mise en solution
La présente partie de I’ISO 7627 spécifie la méthode à utiliser
Ajouter 10 ml d’eau, 5 ml d’acide fluorhydrique (3.11, puis
pour le dosage par spectrométrie d’absorption atomique dans goutte à goutte, 5 ml d’acide nitrique (3.2) dans le bécher con-
la flamme du molybdène, du titane et du vanadium dans les tenant la prise d’essai (4.1) et chauffer doucement jusqu’à dis-
métaux-durs, à des teneurs en chacun de ces éléments compri-
solution complete de la prise d’essai. Ajouter 10 ml de solution
ses entre 0,Ol et 0,05 % (mlm).
de chlorure de cesium (3.4) et 10 ml de solution de fluorure
d’ammonium (3.3). Transvaser alors la solution totalement
Les prescriptions générales concernant le domaine d’applica-
dans une fiole jaugée en polypropylene de 100 ml et compléter
tion, le principe, les interférences, l’appareillage, I’échantillon-
jusqu’au trait de jauge.
nage et le procès-verbal d’essai figurent dans I’ISO 7627/1.
4.3 Volume de dilution
2 Réfhence
Préparer le volume de dilution servant pour l’analyse, confor-
- Analyse chimique par spectromé- mément au tableau 1, de la manière suivante.
ISO 762711, Métaux-durs
trie d’absorption atomique dans la flamme - Partie 1: Caracté-
ris tiques ghérales.
4.3.1 Volume de dilution 100 ml: utiliser la solution de 4.2.
3 Réactifs
4.3.2 La concentration de la solution peut être réduite dans
un rapport de 10 pour les appareils à haute sensibilité par trans-
vasement de 10 ml de solution de 4.2 dans une fiole jaugée en
3.1 Acide fluorhydrique, Q 1,12 g/ml.
polypropyléne de 100 ml. Ajouter 10 ml de solution de chlorure
de césium (3.41, puis 10 ml de solution de chlorure d’ammo-
3.2 Acide nitrique, Q 1,42 g/ml.
nium (3.3) et compléter jusqu’au trait de jauge.
3.3 Fluorure d’ammonium, solution à 0,l g/ml.
4.4 Prdparation des solutions d%talonnage et
d’essaj 4 blanc
3.4 Chloru
...

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