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ISO 1389-11:1977

(Main)

Phthalic anhydride for industrial use — Methods of test — Part 11: Determination of iron content — 2,2'- Bipyridyl photometric method

Phthalic anhydride for industrial use — Methods of test — Part 11: Determination of iron content — 2,2'- Bipyridyl photometric method

The principle is based on the dissolution, in hot hydrochloric acid, of the residue from the determination of the ash of a test portion (see ISO 1389/8). Reduction, by hydroxylammonium chloride, of the iron(III) contained in the solution thus obtained, formation of the coloured complex iron(II)-2,2'bipyridyl in a buffered medium. Photometric measurement of the coloured complex at a wavelength of about 510 nm. - ISO 1389, Parts 1 to 11, replace ISO Recommendation R 1389-1970.

Anhydride phtalique à usage industriel — Méthodes d'essai — Partie 11: Dosage du fer — Méthode photométrique au bipyridyle-2,2'

General Information

Status
Withdrawn
Publication Date
28-Feb-1977
Withdrawal Date
28-Feb-1977
ICS
71.080.50 - Anhydrides
Technical Committee
ISO/TC 47 - Chemistry
Drafting Committee
ISO/TC 47 - Chemistry
Current Stage
9599 - Withdrawal of International Standard
Completion Date
27-May-2002
Ref Project

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ISO 1389-11:1977 - Phthalic anhydride for industrial use -- Methods of testISO 1389-11:1977 - Phthalic anhydride for industrial use -- Methods of test
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ISO 1389-11:1977 - Anhydride phtalique a usage industriel -- Méthodes d'essaiISO 1389-11:1977 - Anhydride phtalique a usage industriel -- Méthodes d'essai
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ISO 1389-11:1977 - Anhydride phtalique a usage industriel -- Méthodes d'essaiISO 1389-11:1977 - Anhydride phtalique a usage industriel -- Méthodes d'essai
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ISO 1389-11:1977 - Anhydride phtalique a usage industriel -- Méthodes d'essai
French language
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Standards Content (Sample)

INTERNATIONAL STANDARD
1389/X
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION .MEih ’Llb ’H.4POfiHA(1 OPI-.4HM3ALlMFI I-IO CTAH~APTM3ALIMM~ORGANISATlON INTERNATIONALE DE NORMALISATION
Phthalic anhydride for industrial use - Methods of test -
Part XI I Determination of iron content - 2,2 ’-Bipyridyl
photometric method
Anh ydride phtalique ;i usage industriel - Mthodes d ’essai -
Partie X1 : Dosage du fer - Mthode photome ’trique au bipyridyle-2,2’
First edition - 1977-03-15
~~
UDC 661.73 : 620.1 : 543.8 Ref. No. IS0 1389/X1-1977 (E)
Descriptors : phthalic anhydride, tests, chemical analysis, determination, colouring, solidification point, acidity, phthalic anhydride, maleic
anhydride, ash, impurities, iron, naphthoquinones.
Price based on 3 pages

---------------------- Page: 1 ----------------------
FOREWORD
IS0 (the International Organization for Standardization) is a worldwide federation
of national standards institutes (IS0 member bodies). The work of developing
International Standards is carried out through IS0 technical committees. Every
member body interested in a subject for which a technical committee has been set
up has the right to be represented on that committee. International organizations,
governmental and non-governmental, in liaison with ISO, also take part in the work.
Draft International Standards adopted by the technical committees are circulated
to the member bodies for approval before their acceptance as International
Standards by the IS0 Council.
Prior to 1972, the results of the work of the technical committees were published
as IS0 Recommendations; these documents are in the process of being transformed
into International Standards. As part of this process, Technical Committee
ISO/TC 47, Chemistry, has reviewed IS0 Recommendation R 1389-1970 and
found it technically suitable for transformation. The technical committee, however,
divided the recommendation into eleven parts (IS0 1389, parts I to Xl), which
R 1389-1970, to which they are
therefore replace IS0 Recommendation
technically identical.
IS0 Recommendation R 1389 had been approved by the member bodies of the
following countries :
India South Africa, Rep. of
Austria
I ran Spain
Belgium
Brazil Ireland Sweden
Cuba I taiy Switzerland
Czechoslovakia Korea, Rep. of Thailand
Egypt, Arab Rep. of Netherlands Turkey
France New Zealand United Kingdom
Germany Portugal
Hungary Romania
No member body had expressed disapproval of the Recommendation.
The member bodies of the foil owing countries disapp roved the transformation of
the Recommendation in to an In ternat ionai Standard :
France
Netherlands
0 International Organization for Standardization, 1977 l
Printed in Switzerland

---------------------- Page: 2 ----------------------
IS0 1389/X1 -1977 (E)
INTERNATIONAL STANDARD
Phthalic anhydride for industrial use - Methods of test -
Part XI : Determination of iron content - 2,2 ’-Bipyridyl
photometric method
1 SCOPE AND FIELD OF APPLICATION 3.3 Urea (NH*- CO-NH2) solution.
This part of IS0 1389 specifies a 2,2 ’-bipyridyi photo- Dissolve 100 g of urea in 100 ml of water.
metric method for the determination of the iron content
of phthaiic anhydride for industrial use.
3.4 Hydroxylammonium chloride (NHzOH.HCi), 100 g/l
solution.
This document should be read in conjunction with part I
(see the annex).
3.5 Ammonium acetate (CH$OONH& 500 g/i solution.
3.6 2,2 ’-Bipyridyl, 5 g/i hydrochloric solution.
2 PRINCIPLE
Dissolve 0,5 g of 2,2 ’-bipyridyl in 100 ml of approximately
Dissolution, in hot hydrochloric acid, of the residue from
1 N hydrochloric acid solution.
the determination of ash of a test portion (see part VI II).
Reduction, by hydroxyiammonium chloride, of the tri-
3.7 Iron, standard solution corresponding to 0,100 g of
valent iron contained in the solution thus obtained.
Fe per litre.
Formation of the coloured complex iron( I I) -2,2 ’-bipyridyi
in a buffered medium. Photometric measurement of the
Weigh, to the nearest 0,000 1 g, 0,702 2 g of ammonium
coioured complex at a wavelength of about 510 nm. iron suiphate hexahydrate [(NH& SOQF~SO~.~H~O],
and dissolve in 50 ml of approximately 5 N sulphuric acid
solution. Transfer quantitatively to a 1 000 ml one-mark
volumetric flask, dilute to the mark and mix.
3 REAGENTS
1 ml of this standard solution contains 0,100 mg of Fe.
During the analysis, use only reagents of recognized
3.8 Iron, standard solution corresponding to 0,010 g of
analytical grade and only distilled water or water of equiv-
Fe per Iitre.
alent purity.
Place, in a 1 000 ml one-mark volumetric flask, 100 ml of
the standard iron solution (3.7), dilute to the mark and
3.1 Hydrochloric acid, p approximately 1,19 g/ml,
mix.
...

NORME INTERNATIONALE 1389/X1
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION l MEXfiYHAPOLIHAIII OPI-AHM3AUMJi l-l0 CTAHLIAPTM3ALIMM .ORGANISATION INTERNATIONALE DE NORMALISATION
Anhydride phtalique à usage industriel - Méthodes d’essai -
Partie XI : Dosage du fer -
Méthode photométrique au
bipyridyle-2,2’
Ph thalic anhydride for industrial use - Methods of test -
Part Xl : Determination of iron content
- 2,2’- Bip yrid y/ pho tome trie me thod
Première édition - 1977-03-I 5
A
U
Y
K
CDU 661.73 : 620.1 : 543.8 Réf. no : ISO 1389/X1-1977 (F)
CB
-
Descripteurs : anhydride phtalique, essai, analyse chimique, détermination, coloration, point de cristallisation, acidité, anhydride phtalique,
anhydride maléique, cendre, impureté, fer, napthtoquinone.
Prix basé sur 3 pages

---------------------- Page: 1 ----------------------
AVANT-PROPOS
L’ISO (Organisation internationale de normalisation) est une fédération mondiale
d’organismes nationaux de normalisation (comités membres de I’ISO). L’élaboration
des Normes internationales est confiée aux comités techniques de 1’60. Chaque
comité membre intéressé par une étude a le droit de faire partiedu comité technique
correspondant. Les organisations internationales, gouvernementales et non
gouvernementales, en liaison avec I’ISO, participent également aux travaux.
Les projets de Normes internationales adoptés par les comités techniques sont
soumis aux comités membres pour approbation, avant leur acceptation comme
Normes internationales par le Conseil de I’ISO.
Avant 1972, les résultats des travaux des comités techniques étaient publiés comme
recommandations ISO; ces documents sont en cours de transformation en Normes
internationales. Compte tenu de cette procédure, le Comité technique ISO/TC 47,
Chimie, après examen, est d’avis que la Recommandation lSO/R 13894970 peut,
du point de vue technique, être transformée. Toutefois, le comité technique a divisé
la recommandation en onze parties (ISO 1389 parties I à Xl), qui remplacent donc
la Recommandation ISO/R 1389-1970, à laquelle elles sont techniquement
identiques.
Les comités membres des pays suivants avaient approuvé la Recomman-
dation ISO/R 1389 :
France Roumanie
Afrique du Sud, Rép. d’
Allemagne Hongrie Royaume-Uni
Autriche Inde Suède
Belgique Iran Suisse
Brésil Irlande Tchécoslovaquie
Corée, Rép. de I tal ie Tha’ilande
Cuba Nouvelle-Zélande Turquie
Égypte, Rép. arabe d’ Pays-Bas
Espagne Portugal
Aucun comité membre ne l’avait désapprouvée.
ont désapprouvé la transformation de la
Les comités membres des pays suivants
recommandation en Norme inter nationale
France
Pays-Bas
0 Organisation internationale de normalisation, 1977 l
Imprimé en Suisse

---------------------- Page: 2 ----------------------
60 1389/X1 -1977 (F)
NORME INTERNATIONALE
Anhydride phtalique à usage industriel - Méthodes d’essai -
Méthode photométrique au
Partie XI : Dosage du fer -
bipyridyle-2,2’
3.3 Urée (NH*--CO-NH2), solution.
1 OBJET ET DOMAINE D’APPLICATION
Dissoudre 100 g d’urée dans 100 ml d’eau.
La présente partie de I’ISO 1389 spécifie une méthode
photométrique au bipyridyle-2,2’ pour le dosage du fer
3.4 Chlorure d’hydroxylammonium (NH,OH.HCI), SO~U-
dans l’anhydride phtalique à usage industriel.
tion à 100 g/l.
Le présent document devra être lu conjointement avec la
partie I (voir l’annexe).
3.5 Acétate d’ammonium (CH$OONH4), solution à
500 gfl.
2 PRINCIPE 3.6 Bipyridyle-2,2’, solution chlorhydrique à 5 g/l.
Dissolution à chaud, par l’acide chlorhydrique, du résidu Dissoudre 0,5 g de bipyridyle-2,2’ dans 100 ml d’une solu-
provenant de la détermination des cendres d’une prise tion d’acide chlorhydrique 1 N environ.
d’essai (voir partie VIII). Réduction, par le chlorure
d’hydroxylammonium, du fer trivalent contenu dans la
3.7 Fer, solution étalon correspondant à 0,100 g de Fe
solution obtenue. Formation du complexe coloré fer( I I)-
par litre.
bipyridyle-2,2’ en milieu tamponné. Mesurage photo-
Peser, à 0,000 1 g près, 0,702 2 g de sulfate dou-
métrique du complexe coloré à une longueur d’onde
ble d’ammonium et de fer-( II) hexahydraté
aux environs de 510 nm.
[(NH& S04.FeS04.6H20], et le dissoudre dans 50 ml
d’une solution d’acide sulfurique 5 N environ. Transvaser
quantitativement la solution obtenue dans une fiole jaugée
de 1 000 ml, compléter au volume et homogénéiser.
3 RÉACTIFS
1 ml de cette solution étalon contient 0,100 mg de Fe.
Au cours de l’analyse, n’utiliser que des réactifs de qualité
analytique reconnue, et que de l’eau distillée ou de l’eau
3.8 Fer, solution étalon correspondant à 0,010 g de Fe
de pureté équivalente.
par litre.
Introduire, dans une fiole jaugée de 1 000 ml, 100 ml de
3.1 Acide chlorhydrique, p 1,19 g/ml environ, solution à
la solution étalon de fer (3.7), compléter au volume et
38 % (mlm) ou 12 N environ. homogénéiser.
1 ml de cette solution étalon contient 30 p
...

NORME INTERNATIONALE 1389/X1
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION l MEXfiYHAPOLIHAIII OPI-AHM3AUMJi l-l0 CTAHLIAPTM3ALIMM .ORGANISATION INTERNATIONALE DE NORMALISATION
Anhydride phtalique à usage industriel - Méthodes d’essai -
Partie XI : Dosage du fer -
Méthode photométrique au
bipyridyle-2,2’
Ph thalic anhydride for industrial use - Methods of test -
Part Xl : Determination of iron content
- 2,2’- Bip yrid y/ pho tome trie me thod
Première édition - 1977-03-I 5
A
U
Y
K
CDU 661.73 : 620.1 : 543.8 Réf. no : ISO 1389/X1-1977 (F)
CB
-
Descripteurs : anhydride phtalique, essai, analyse chimique, détermination, coloration, point de cristallisation, acidité, anhydride phtalique,
anhydride maléique, cendre, impureté, fer, napthtoquinone.
Prix basé sur 3 pages

---------------------- Page: 1 ----------------------
AVANT-PROPOS
L’ISO (Organisation internationale de normalisation) est une fédération mondiale
d’organismes nationaux de normalisation (comités membres de I’ISO). L’élaboration
des Normes internationales est confiée aux comités techniques de 1’60. Chaque
comité membre intéressé par une étude a le droit de faire partiedu comité technique
correspondant. Les organisations internationales, gouvernementales et non
gouvernementales, en liaison avec I’ISO, participent également aux travaux.
Les projets de Normes internationales adoptés par les comités techniques sont
soumis aux comités membres pour approbation, avant leur acceptation comme
Normes internationales par le Conseil de I’ISO.
Avant 1972, les résultats des travaux des comités techniques étaient publiés comme
recommandations ISO; ces documents sont en cours de transformation en Normes
internationales. Compte tenu de cette procédure, le Comité technique ISO/TC 47,
Chimie, après examen, est d’avis que la Recommandation lSO/R 13894970 peut,
du point de vue technique, être transformée. Toutefois, le comité technique a divisé
la recommandation en onze parties (ISO 1389 parties I à Xl), qui remplacent donc
la Recommandation ISO/R 1389-1970, à laquelle elles sont techniquement
identiques.
Les comités membres des pays suivants avaient approuvé la Recomman-
dation ISO/R 1389 :
France Roumanie
Afrique du Sud, Rép. d’
Allemagne Hongrie Royaume-Uni
Autriche Inde Suède
Belgique Iran Suisse
Brésil Irlande Tchécoslovaquie
Corée, Rép. de I tal ie Tha’ilande
Cuba Nouvelle-Zélande Turquie
Égypte, Rép. arabe d’ Pays-Bas
Espagne Portugal
Aucun comité membre ne l’avait désapprouvée.
ont désapprouvé la transformation de la
Les comités membres des pays suivants
recommandation en Norme inter nationale
France
Pays-Bas
0 Organisation internationale de normalisation, 1977 l
Imprimé en Suisse

---------------------- Page: 2 ----------------------
60 1389/X1 -1977 (F)
NORME INTERNATIONALE
Anhydride phtalique à usage industriel - Méthodes d’essai -
Méthode photométrique au
Partie XI : Dosage du fer -
bipyridyle-2,2’
3.3 Urée (NH*--CO-NH2), solution.
1 OBJET ET DOMAINE D’APPLICATION
Dissoudre 100 g d’urée dans 100 ml d’eau.
La présente partie de I’ISO 1389 spécifie une méthode
photométrique au bipyridyle-2,2’ pour le dosage du fer
3.4 Chlorure d’hydroxylammonium (NH,OH.HCI), SO~U-
dans l’anhydride phtalique à usage industriel.
tion à 100 g/l.
Le présent document devra être lu conjointement avec la
partie I (voir l’annexe).
3.5 Acétate d’ammonium (CH$OONH4), solution à
500 gfl.
2 PRINCIPE 3.6 Bipyridyle-2,2’, solution chlorhydrique à 5 g/l.
Dissolution à chaud, par l’acide chlorhydrique, du résidu Dissoudre 0,5 g de bipyridyle-2,2’ dans 100 ml d’une solu-
provenant de la détermination des cendres d’une prise tion d’acide chlorhydrique 1 N environ.
d’essai (voir partie VIII). Réduction, par le chlorure
d’hydroxylammonium, du fer trivalent contenu dans la
3.7 Fer, solution étalon correspondant à 0,100 g de Fe
solution obtenue. Formation du complexe coloré fer( I I)-
par litre.
bipyridyle-2,2’ en milieu tamponné. Mesurage photo-
Peser, à 0,000 1 g près, 0,702 2 g de sulfate dou-
métrique du complexe coloré à une longueur d’onde
ble d’ammonium et de fer-( II) hexahydraté
aux environs de 510 nm.
[(NH& S04.FeS04.6H20], et le dissoudre dans 50 ml
d’une solution d’acide sulfurique 5 N environ. Transvaser
quantitativement la solution obtenue dans une fiole jaugée
de 1 000 ml, compléter au volume et homogénéiser.
3 RÉACTIFS
1 ml de cette solution étalon contient 0,100 mg de Fe.
Au cours de l’analyse, n’utiliser que des réactifs de qualité
analytique reconnue, et que de l’eau distillée ou de l’eau
3.8 Fer, solution étalon correspondant à 0,010 g de Fe
de pureté équivalente.
par litre.
Introduire, dans une fiole jaugée de 1 000 ml, 100 ml de
3.1 Acide chlorhydrique, p 1,19 g/ml environ, solution à
la solution étalon de fer (3.7), compléter au volume et
38 % (mlm) ou 12 N environ. homogénéiser.
1 ml de cette solution étalon contient 30 p
...

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This document specifies the methods of calculation of the load capacity of bevel gears, the formulae and symbols used for calculation, and the general factors influencing load conditions. The formulae in this document are intended to establish uniformly acceptable methods for calculating the load-carrying capacity of straight, helical (skew), spiral bevel, Zerol and hypoid gears. They are applicable equally to tapered depth and uniform depth teeth. Hereinafter, the term “bevel gear” refers to all of the gear types; if not, the specific forms are identified. The formulae in this document take into account the known major factors influencing load-carrying capacity. The rating formulae are only applicable to types of gear tooth deterioration, that are specifically addressed in the individual parts of the ISO 10300 series. Rating systems for a particular type of bevel gears can be established by selecting proper values for the factors used in the general formulae. NOTE This document is not applicable to bevel gears which have an inadequate contact pattern under load (see Annex D). The rating system of this document is based on virtual cylindrical gears and restricted to bevel gears whose virtual cylindrical gears have transverse contact ratios of εvα The user is cautioned that when the formulae are used for large average mean spiral angles (βm1 + βm2)/2 > 45°, for effective pressure angles αe > 30° and/or for large facewidths b > 13 mmn, the calculated results of this document should be confirmed by experience.

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