ISO/TR 10358:1993
(Main)Plastics pipes and fittings — Combined chemical-resistance classification table
Plastics pipes and fittings — Combined chemical-resistance classification table
The materials covered by the classification are: low-density polyethylene; high-density polyethylene; polypropylene; Poly(vinyl chloride), unplasticized; Poly(vinyl chloride), chlorinated; polybutene; Acrylonitrile/butadiene/styrene; Poly(vinylidene fluoride); cross-linked polyethylene. Three classes are distinguished: satisfactory resistance, limited resistance, resistance not satisfactory. Corrosion resistance is given to 427 chemicals of different concentration at different temperatures.
Tubes et raccords en matières plastiques — Tableau de classification de la résistance chimique
General Information
Relations
Standards Content (Sample)
TECHNICAL
ISO/TR
REPORT
10358
First edition
RAPPORT
Premiere Edition
1993-06-01
TECHNIQUE
Plastics pipes and fittings - Combined
Chemical-resistance classification table
Tubes et raccords en matikes plastiques -
Tableau de classification de Ia resistance
chimique
Reference number
Numero de rkfkrence
lSO/TR 10358:1993 (E/F)
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ISO/TR 10358:1993( E/F)
Foreword
ISO (the International Organization for Standardization) is a worldwide
federation of national Standards bodies (ISO member bodies). The work of
preparing International Standards is normally carried out through ISO technicai
committees. Esch member body interested in a subject for which a technical
committee has been established 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. ISO collaborates closely with the
International Electrotechnical Commission (IEC) on all matters of electro-
technical standardization.
The main task of technical committees is to prepare International Standards,
but in exceptional circumstances a technical committee may propose the
publication of a Technical Report of one of the following types:
1, when the required support cannot be obtained for the
- tYPe
publ ication of an International Standard, d espite repeat e d efforts;
- type 2, when the subject is still under technical development or where for
any other reason there is the future but not immediate possibility of an
agreement on an International Standard;
- type 3, when a technical committee has collected data of a different
kind from that which is normally published as an International Standard
( “state of the art ”, for example).
Technical Reports of types 1 and 2 are subject to review within three years of
publication, to decide whether they tan be transformed into International
Standards. Technical Reports of type 3 do not necessarily have to be reviewed
until the data they provide are considered to be no longer valid or useful.
ISO/TR 10358, which is a Technical Report of type 3, was prepared by Technical
Committee ISOnC 138, plastics pipes, fittings and valves for the transport of
fluids, Sub-Committee SC 3, Piastks pipes and fittings for industrial use.
This Technical Report cancels and replaces ISOTTR 6285: 1980,
ISOnR 7471:1981, ISO/TR 7472:1981, ISO/TR 7473:1981 and ISOTTR 7474:1981,
which have been combined into one document, at the same time including
additional data (see the introduction for details).
0 ISO 1993
All rights reserved. No part of this publication may be reproduced or utilized in any form or by any means,
electronie or mechanical, including photocopying and microfilm, without permission in writing from the
publisher. / Droits de reproduction resenks. Aucune park de cette publication ne peut etre reproduite ni
utilisee sous quelque forme que ce soit et par aucun procede, electronique ou mkanique, y compris Ia
photocopie et les microfilms, sans I ’accord &xit de I ’editeur.
International Organization for Standardkation
Case postale 56 l CH-l 211 Geneve 20 l Switzerland
Printed in Switzerland/lmprimk en Suisse
ii
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ISO/TR 10358:1993( EIF)
Avant-propos
L ’ISO (Organisation internationale de normalisation) est une federation
mondiale d ’organismes nationaux de normalisation (comites membres de
I ’ISO). L ’elaboration des Normes internationales est en general confiee aux
comites techniques de I ’ISO. Chaque comite membre interesse par une etude a
Ie droit de faire Partie du comite technique cr& a cet effet. Les Organkations
internationales, gouvernementales et non gouvernementales, en liaison avec
I ’ISO participent egalement aux travaux. L ’ISO collabore etroitement avec Ia
Commission electrotechnique internationale (CEI) en ce qui concerne Ia
normalisation electrotechnique.
La tache principale des comites techniques est d ’elaborer les Normes
internationales, mais, exceptionnellement, un comite technique peut proposer Ia
publication d ’un rapport technique de I ’un des types suivants:
- type 1, lorsque, en depit de maints efforts, I ’accord requis ne peut etre
realise en faveur de Ia publication d ’une Norme internationale;
- type 2, lorsque Ie Sujet en question est encore en cours de developpement
technique ou Iorsque, pour toute autre raison, Ia possibilite d ’un accord
pour Ia publication d ’une Norme internationale peut etre envisagee pour
I ’avenir mais pas dans I ’immediat;
- type 3, lorsqu ’un comite technique a reuni des donnees de nature differente
de celles qui sont normalement publiees comme Normes internationales
(ceci pouvant comprendre des informations sur I ’etat de Ia technique, par
exemple).
Les rapports techniques des types 1 et 2 font I ’objet d ’un nouvel examen trois
ans au plus tard apres leur publication afin de decider eventuellement de leur
transformation en Normes internationales. Les rapports techniques du type 3 ne
doivent pas necessairement etre revises avant que les donnees fournies ne
soient plus jugees valables ou utiles.
L ’ISO/TR 10358, rapport technique du type 3, a etc elabore par Ie comite
technique lSO/K 138, Tubes, raccords et robinetterie en matkes plastiques
pour /e transport des fluides, sous-comite SC 3, Tubes et raccords en matkres
plastiques pour appiications industrielles.
Le present Rapport technique annule et remplace I ’lSOm 62851980,
l ’lSO/TR 7471:1981, I ’lSOflR 7472:1981, I ’ISOTTR 7473:1981 et I ’ISOTTR 7474:1981,
en Ie completant avec toutes les
qui ont etc groupes en un seul document,
donnees disponibles (voir I ’introduction).
. . .
Ill
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ISO/TR 10358:1993( E/F)
Introduction
This document has been published as a type 3 Technical Report as a result of a
decision taken by lSO/TC 138/SC 3 to combine the Chemical-resistance tables
for ABS, PE-LD, PE-HD, PP and PVC-U already published as ISO/TR 6285,
ISO/TR 7471, ISO/TR 7472, ISO/TR 7473 and ISO/TR 7474, and to include, in
addition, data for other polymers, viz.: PVC-C, PB, PVDF and PE-X, based on
recent practical experience and laboratory tests.
The table in this Technical Report provides only a preliminary classification of
the Chemical resistance of pipes and fittings which are not subjected to press-
ure. They take into account the various applications of the pipe materials
concerned and the working conditions used, in particular the temperatures and
concentrations of the Chemical fluids to which a material may be exposed. To
obtain numerical values for changes in mass or for mechanical proper-Ges, tests
may be carried out in accordance with ISO 4433 or other Chemical-resistance
test methods at present at the draft Stage within ISOK 138/SC 3.
iv
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ISO/TR 10358:1993( E/F)
Introduction
Le present document qui est public comme Rapport technique du type 3 est Ie
resultat d ’une decision Prise par l ’lSO/rC 138/SC 3 de combiner les tableaux de
resistance chimique des ABS, PE-LD, PE-HD, PP et PVC-U, deja publies comme
ISO/TR 6285, ISOTTR 7471, ISOTTR 7472, ISO/TR 7473 et ISOTTR 7474, et d ’inclure,
en plus, des donnees concernant d ’autres polymeres comme Ie PVC-C, Ie PB, Ie
PVDF et Ie PE-X, en se basant sur de nouvelles expkiences pratiques et aussi sur
de nouveaux essais de laboratoire.
Le tableau 1 du present Rapport technique fournit seulement une classification
preliminaire de Ia resistance chimique des tubes et raccords non soumis a pres-
sion. II prend en campte diverses applications de matieres pour tubes concer-
nees et diverses conditions de Service utilisees, en particulier les temperatures et
les concentrations de produits chimiques auxquelles un materiau peut etre
expose. Pour obtenir des resultats chiffres concernant les variations de masse ou
des proprietes mecaniques, les essais peuvent etre effectues conformement a
I ’ISO 4433 ou a d ’autres methodes d ’essai de resistance chimique actuellement
au stade de projet au sein de l ’lSO/rC 138/SC 3.
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This page intentionally left blank
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TECHNICAL REPORT
ISO/TR 10358:1993(E/F)
RAPPORT TECHNIQUE
Tubes et raccards en
Plastics pipes and fittings -
matieres plastiques -
Co-mbined chemical-
resistance classification Tableau de classificatim de
Ia resistance chimique
table
1 Domaine d ’application
1 Scope
1.1 Le present Rapport technique fournit une classifica-
1.1 This Technical Report establishes a classification of
tion de Ia r6sistance chimique des matieres pour tubes
the Chemical resistance of pipe materials to specified
vis-a-vis de fluides prescrits dans une cettaine gamme de
fluids over a range of temperatures.
temp&atures.
The pipe materials covered by this classification are:
Les matieres pour tubes couvertes par cette classification
sont les suivantes:
Low-density polyethylene PE-LD
High-density polyethylene PE-HD”
PP Pol yethylene basse densit6 PE-LD
Polypropylene
Poly(vinyl chloride), unplasticized PVC-u Pol yethylene haute densit6 PE-HD”
PVC-c Pol ypropyl&ne PP
Poly(vinyl chloride), chlorinated
PB Pol ybutene PB
Polybutene
ABS Pol y(chlorure de vinyle) non plastifi6 PVC-u
Acrylonitrile/butadiene/styrene
PVDF Pol y(chlorure de vinyle) chlor6 PVC-c
Poly(vinylidene fluoride)
ACI ylonitrile/butadi&e/styr&ne
Cross-linked polyethylene PE-P’ ABS
Pol y(fluorure de vinylidene) PVDF
Pol y6thylene r&icule PE-S’
1) Les anciennes designations PE-LD et PE-HD ont 6t6 maintenues
1) The old designations PE-LD and PE-HD have been maintained,
parce que Ia plupart des essais ont 6th conduits avant que les
since the majority of tests were conducted before the new
nouvelles designations aient 6te adopt&s pour Ie PE. Pour les tubes
designations were adopted for PE. For MD pipes, the values
MD, les valeurs indiquees pour Ie PE-HD peuvent etre consid&&zs
indicated for PE-HD may be assumed to be valid.
comme valables.
2) The values reported in the PE-X column have been obtained on
2) Les valeurs indiquees dans Ia colonne du PE-X ont et& obtenues
silane-crosslinked PE; however, in the majority of cases they will also
sur un PE r&icuI& au silane; toutefois, dans Ia majorit.6 des cas, ces
be valid for PE-X prepared using other Cross-linking agents
(Peroxides, irradiation, etc.). Further tests are in course. valeurs seront egalement valables pour Ie PE-X obtenu en utilisant
d ’autres agents r&iculants (Peroxides, irradiation, etc.). D ’autres
essais sont en cours.
1
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ISOITR 10358:1993( E/F)
1.2 La classification preliminaire de Ia resistance chimi-
1.2 The preliminary Chemical-resistance classification
que donnee dans Ie tableau 1 - S (resistance satis-
given in table 1 - S (satisfactory), L (limited) or NS (not
faisante), L (resistance limitee) ou NS (resistance non
satisfactory) - is only suitable for use with pipes which
are not subjected to internal and external mechanical satisfaisante) - est seulement valable pour des tubes qui
Stresses (for example, those caused by internal pressure, ne sont pas soumis a des contraintes mecaniques internes
ou externes (par exemple Pression interne, flexion). Afin
flexural stresse@. In Order to assess the behaviour of pipes
d ’evaluer Ie comportement des tubes et raccords en vue
and fittings for the conveyance of fluids under pressure, or
du transport de fluides sous Pression, ou en presence
in the presence of other stresses, in cases when the
d ’autres contraintes, dans Ie cas ou Ia classification pr6-
preliminary classification is S or L, it will be necessary to
liminaire est S ou L, il sera necessaire d ’effectuer d ’autres
carry out futther tests as specified in ISO 8584-1 and/or
essais comme specifie dans I ’ISO 8584-1 et/ou l ’lSO/TR
ISO/ ‘l-R 8584-2.
8584-2.
NOTES
NOTES
1 To assess the tendency of a material towards environmental
stress cracking, tests may be carried out in accordance with
1 Pour evaluer Ia tendance d ’une matiere a Ia fissuration sous
ISO 4599 and/or ISO 6252.
contrainte, des essais peuvent etre effectues conformement a
I ’ISO 4599 et/ou a I ’ISO 6252.
2 Other properties of the pipe material (e.g. permeability) or of the
fluid conveyed (e.g. toxicity, inflammability, etc.) should be con- 2 II convient que les autres proprietes de Ia matiere pour tube (par
sidered separately. exemple Ia permeabilite) ou du fluide transporte (par exemple Ia
toxicite, I ’inflammabilite, etc.) soient considerees a part.
2 Refkrences
2 References
ISO 4433: 1984, Tubes en polyolefines - Resistance aux
ISO 4433:1984, Polyolefin pipes - Resistance to Chemical
fluides chimiques - Methode d ’essai par immersion -
fluids - lmmersion test method - System for prelimi-
Systeme de classifica tion preliminaire.
nary classification.
ISO 4599: 1986, Plastiques - Determination de la fissu-
ISO 4599: 1986, Plastics - Determination of resistance to
ration sous contrainte dans un environnement donne
environmental stress cracking (ESC) - Bent Strip method.
(ESC) - Methode de l ’eprouvette courbee.
Determination of environmental
ISO 6252: 1992, Plastics -
stress cracking (ESC) - Constant tensile stress method. ISO 6252: 1992, Plastiques - Determination de la fissu-
ration sous contrainte dans un environnement donne
(ESC) - Methode sous contrainte de traction constante.
ISO 8584-1: 1990, Thermoplastics pipes for industrial ap-
plications under pressure - Determination of the chemi-
ISO 8584-1: 1990, Tubes en thermoplastiques pour /es
cal resistance factor and of the basic stress - Part 7:
applications industrielles sous Pression - Determination
Polyolefin pipes.
du facteur de resistance chimique et de la contrainte de
ISO/TR 8584-2:-3), Thermoplastics pipes for industrial ap- base - Partie 7: Tubes en polyolefines.
plications under pressure - Determination of the chemi-
ISO/TR 8584-2: 3), Tubes en thermoplastiques pour /es
cal resistance factor and of the basic stress - Part 2:
applica tions industrielles sous Pression - Determination
lialogenated-polymer pipes.
du facteur de resistance chimique et de la contrainte de
base - Partie 2: Tubes en polymeres halogenes.
3 Explication des Symboles
3 Explanation of Symbols
3.1 Symboles utilisk pour Ia resistance chimique
3.1 Symbols used for the Chemical resistance of
des matikres pour tubes
the pipe materials
the behaviour Les Symboles employk pour indiquer Ie com portement
The following Symbol s are used to indicate
des tubes vis-A -vis des flu s suivants:
of pi pes in contact wit h ehe lmical agents: ides chimiques sont Ie
3) A publier.
3) To be published.
2
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ISO/TR 10358:1993( E/F)
S resistance satisfaisante
S satisfactory resistance
Les tubes peuvent etre utilises pour des applications sans
The pipes tan be used for applications in which they are
Pression ou autres contraintes; dans Ie cas des applica-
not subjected to pressure or other Stresses; for appli-
tions avec Pression, Ie jugement definitif doit etre donne a
cations in which they are exposed to pressure, the final
partir d ’un essai ulterieur sous Pression.
assessment shall be on the basis of a subsequent test
under pressure.
L resistance limitee
L limited resistance Les tubes peuvent etre utili& pour des applications sans
Pression ou autres contraintes, et dans lesquelles une cer-
The pipes tan be used for applications in which they are
taine attaque peut etre acceptee; dans Ie cas des applica-
not subjected to pressure or other stresses, but in which a
tions avec Pression, Ie jugement definitif doit etre donne a
certain amount of corrosion tan be accepted; for
partir d ’un essai ulterieur sous Pression.
applications in which they are exposed to pressure, the
final assessment shall be on the basis of a subsequent test
under pressure. NS resistance non satisfaisante
Les tubes sont fortement attaques: a proscrire pour les
applications aussi bien sous Pression que sans Pression. II
Ns resistance not satisfactory
est inutile de prevoir des essais sous Pression etant donne
The pipes are seriously attacked: they shall not be used for
either pressure or non-pressure applications. There is no que les tubes ne pourront pas satisfaire ti ces essais.
point in conducting tests under pressure as the pipes
would be certain to fail these tests.
3.2 Symboles utilis6s pour dkxire les fluides
3.2 Symbols used to describe the fluids
Colonne 7
Column 7
Numero d ’identification du fluide.
Identification number of the fluid.
Column 2 Colonne 2
The fluids are listed by their most common names, includ- Les fluides sont designes par leur nom Ie plus usuel, y
compris leur nom commun et commercial, dans I ’ordre
ing trivial and trade names, in English alphabetical Order.
alphabetique anglais. Un index des noms francais, dans
An index of French names, in French alphabetical Order,
with the same identification numbers, is given at the end I ’ordre alphabetique, avec les memes numeros d ’identifi-
of this document. cation, est donne a Ia fin du present Rapport technique.
Avec certains produits chimiques, les synonymes sont in-
With some of the chemicals, Synonyms are listed, also in
diques egalement dans I ’ordre alphabetique, en faisant
alphabetical Order, with a reference to the first or the most
reference au nom cite en Premier ou a celui qui est Ie plus
widely used name.
largement utilise.
In some cases, further information is given, viz.:
Dans certains cas, une information complementaire est
Subl. = sublimes
donnee, a savoir:
BC. = decomposes
=
Subl. Sublimation
=
Column 3 Dec. decomposition
Melting points (m.p.) are given where appropriate, the
Colonne 3
values referring to fluids of technical-grade purity.
Les Points de fusion (m.p.) sont, Ie cas echeant, indiques,
les valeurs se referant aux fluides de qualite technique.
Column 4
Boiling points (b.p.) are given where appropriate, the
Colonne 4
values referring to fluids of technical-grade purity at stan-
Les points d ’ebullition (b.p.) sont, Ie cas echeant, indiques,
dard atmospheric pressure, unless otherwise stated.
les valeurs se referant aux fluides de qualite technique a Ia
Column 5 Pression atmospherique normale, si rien d ’autre n ’est
The concentration and/or purity of the fluid is indicated, precise.
using the following Symbols:
Colonne 5
Dil.sol. = Dilute aqueous Solution at a concentration La concentration et/ou Ia purete du fluide est (sont) indi-
equal to or less than 10 % quee(s), en utilisant les Symboles suivants:
Sel. = Aqueous Solution at a concentration
= Solution aqueuse diluee de concentration
higher than 10 %, but not saturated Dilsol.
egale ou inferieure a 10 %
Sat.sol. = Saturated aqueous Solution, prepared at
20 “C
3
---------------------- Page: 9 ----------------------
ISO/TR 10358:1993( E/F)
Sel. = Solution aqueuse de concentration sup&
= At least technical-grade purity
t9
rieure a 10 % mais non saturee
tg-s = Technical grade, solid
Satsol . = Solution aqueuse saturee, preparee a
tg-l = Technical grade, liquid
20 “C
= Technical grade, gas
tg-B
= Au moins de qualite technique
Worksol. = Working solution of the concentration
tg
tg-s = Qualite technique, solide
usually used in the industry concerned
tg-l = Qualite technique, fluide
susp. = Suspension of solid in a saturated sol-
= Qualite technique, gazeuse
ution at 20 “C
tg-Cl
Work.soI. = Solution de travail ayant Ia concentration
habituelle aux utilisations industrielles
The concentrations are expressed as a percentage by
susp. = Suspension de solide dans une Solution
mass at 20 OC, unless othetwise stated.
saturee a 20 “C
Column 6
resistance Les concentrations sont exprimees en pourcentage en
Test temperatures at which Chemical
masse, a 20 OC, si rien d ’autre n ’est pr6cise
determined.
Colonne 6
Column 7, etc.
Temperatures d ’essai auxquelles Ia resistance chimique
The Chemical resistance of the pipe materials is given in
est determinee.
accordance with the classification System explained in 3.1.
Colonne 7
La resistance chimique des matikres pour tubes est don-
nee conformement au Systeme de classification expliquk
en 3.1.
---------------------- Page: 10 ----------------------
ISO/TR 10358:1993(E/F)
Table 1 - Chemical-resistance classification data
Tableau 1 - Classification de Ia r6sistance chimique
Chemical m.p. b.p. Concentra- PE- PE- PP PB PVC- PVC- ABS PVDF PE-
OC OC tion % LD HD U C X
1 Acetaldehyde -123 21 40 20 L NS NS NS NS
50 NS NS NS
60 NS NS NS NS
80 NS
L NS NS NS
tg-1 20 L
50 NS NS
60 NS NS NS NS
80 NS
2 Acetamide 221 5 20 S
50 S
3 Acetic acid 17 118 up to 10 20 s s s s S s s S
50 S s s
s s s S S
60 S S
80 S- S
100 S S
S
120
10 to 40 s s s S NS S S
20 s
50 S NS S
60 S L S S S
80 S
50 20 s s s s NS S S
50 NS S
L
60 S S S
80 S
100 L
40 to 60 NS S
20 s s s S
40 S
50 NS
L L
60 S
80
S
60 20 s s s NS S
40 S
50 NS
60 L L
20 S NS S
40 S
50 NS L
60 S L
100 L
95 20 L
40 NS
Acetic acid, glacial > 96 20 L S L NS Ns s S
S
40
50 NS L
60 NS L NS NS L
NS L
100
4 Acetic anhydride S S NS NS NS NS
- 73 140 tg-1 20 L
50 NS
60 NS S NS
5 Acetone - 95 56 5 100
c;n
---------------------- Page: 11 ----------------------
ISOITR 10358:1993( E/F)
Chemical m.p. b.p. Concentra- PE- PE- PP PB pVC- PVC- ABS PVDF PE-
OC OC tion % OC LD HD u c X
5 Acetone (contd.) - 95 56 tg-1
20 L s s NS NS NS S
NS
50
60 NS s s NS L
6 Acetophenone 20 202 tg-s 20 S NS NS NS S
50 NS
60 L NS
7 Acetyl chloride 51 tg-1 20 NS NS
50 NS
8 Acetylene, gas - 84 20 L
tg-g
60 NS
9 Acrylonitrile - 82 77 tg-1 20 S NS L
50 NS
10 Adipic acid 151 265 Sat.sol 20 s s s S
100 Cl,4 %> 60 S s L L
mm
80
100
tg-s 80 S
11 Air S s s
20 s s s
b-9
50 s s
S S
60 S s s
100 S S
140 S
12 Allyl alcohol
97 tg-1 20 L L
s s NS
50
NS
60 NS s s NS
13 Allyl chloride
-136 45 Sat.sol 20 S NS NS
50 NS
60 S NS
tg-1
20 S
14 Almond oil
tg-1 20 S
15
Alum (sec 21)
16 Aluminium chloride Sat.sol. s s
20 s s s s s
50 s s
60 S S S S S S
80 S
100
17 Aluminium fluoride susp. 20 s s s s s s s
50 s s
S
60 S S S S S
100
Alumimium hydroxide susp. S
20 s s s s s
50 S
60 S S S S S
100
---------------------- Page: 12 ----------------------
ISO/TR 10358:1993( EIF)
No. Chemical m.p. b.p. Concentra- T PE- PE- PP PB PVC- PVC- ABS PVDF PE-
OC OC tion % OC LD HD u c
X
19 Aluminium nitrate Sat.sol.
20 s s s s S S S
S
50 S S
60 S s s s S S
100 S
20 Aluminium oxychloride 20 s s s s S
50 S
60 S s s s
21 Aluminium potassium
Sat.sol. 20 s s s s S S S
sulphate
50 S S S
S
60 S s s s S
80 S S
100 L S
22 Aluminium sulphate Sat.sol. 20 s s L s S S S
50 S S S
60 S S NS S S S
100 S
23 Ammonia, aqueous Sat.sol.
20 s s s s S S L
50 S S
60 S s s s S
24 Ammonia, dry gas - 78 -34 20 s s s s S NS S
w-g
50 S NS
60 s s S
S
25 Ammonia, liquid
- 78 20 L s s L NS
Q-g
50 NS
60 L L NS
26 Ammonium acetate Sat.sol. 20 S
60 S
100
27 Ammonium bifluoride Sat.sol. S
20
60 S
28 Ammonium carbonate Sat.sol. s s s
20 s
(Dec. at 58OC) 50
60 S s s s
100
120
29 Ammonium chloride Sat.sol. 20 s s s s
50
60 S s s s
100
30 Ammonium fluoride Sat.sol. 100 S
up to 20 20 s s s S
s
L
60 S S S
S
100
S s
25 20
60 L S
S
100
31 Ammonium hydrogen Sat.sol. 20 s S S
carbonate 60 S S
S
---------------------- Page: 13 ----------------------
ISOITR 10358:1993(E/F)
Chemical m.p. b.p. Concentra- PE- PE- PP PB PVC- PVC- ABS
PE-
OC OC tion % OC LD HO U C X
32 Ammonium metaphosphate Sat.sol. 20 s s s s S
60 S s s s S
100 S S
120 S
33 Ammoniwm molybdate
20 S S
50 S
Ammonium nitrate 170
Sat.sol. 20 s s s s S S
50 S
S
60 S s s s S
100 S S
35 Ammonium persulphate
Sat.sol. 20 s s s s S S
50 S S
60 S s s s S
100 S
36 Ammonium Phosphate Sat.sol. 20 S S
s s s
50 S S
60 s s S
120 S
37 Ammonium sulphate Sat.sol.
20 s S s s s S S
50 S
S
60 S S s s s S
100 S S
38 Ammonium sulphide
Sat.sol. 20 s S s s s L S S
L S
50 S
60 S S s s s L S
100 NS S
39 Ammonium
Sat.sol 20 s S s s s S S S
thiocyanate
50 S S
60 S S s s s S
100 S
40 Amyl acetate -100 142 tg-1 20 NS S L NS NS S
50 NS S
60 NS L NS
80
41 Amyl alcohol - 79 137 tg-1 S NS S
20 L S s s s
50 S NS S
60 L L s s L S
100 S S
42 Amyl chloride - 99 108 NS NS S
tg-1 20 NS
50 NS S
60 NS NS S
S
100
Aniline Sat.sol NS NS
- 6 184 20 NS NS
50 NS
60 NS NS
tg-1 20 NS S S L NS NS NS S
50 NS NS
60 NS L S
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ISO/TR 10358:1993( E/F)
No. Chemical m.p. b.p. Concentra- T PE- PE- pp PB PVC- PVC- ABS PVDF PE-
OC OC tion % OC LD HD u c
X
44 Aniline Sat.sol. NS NS
20 NS
hydrochloride
50 NS
60 NS NS
45 Anthraquinone 214 20 S
sulphonic acid 60 S
46 Antimony (111) 73 223 Sat.sol.
20 s S s s s S S
chloride 50 S
S
60 S S s s s S
90 60
tg-s 40
47 Apple juice Work.sol
20 s S s s s S S
S
50 S
60 S S
48 Aqua regia HCl/HNO 20 NS NS NS S NS
NS NS
3
=3/1 50 S NS
60 NS NS NS NS NS S
90
100 NS
49 Arsenic acid 36 Satsol. 20 S
s s s
60 S s L S
ao 120 S
50 Barium bromide Sat.sol 20 S
s s s s
50 S
60 S s s s
100 S
51 Barium carbonate susp. S S
20 s s s s S
50 S S S
60 S s s s S S
100 S S
120 S
52 Barium chloride Sat.sol. 20 s s s S S S
s
50 S S S
60 S s s s S S
100 S S
53 Barium hydroxide 78 Sat.sol. 20 s s s S S S
s
50 S S S
S
60 S s s s S
100 S S
54 Barium sulphate 20 s s s S s S
s
50 S S S
S
60 S s s s S
100 S S
S
55 Barium sulphide Sat.sol. 20 s s s s S S
S S S
50
60 S s s s S S
100 S S
120 S
---------------------- Page: 15 ----------------------
ISOTTR 10358:1993(E/F)
No. Chemical pp PB PVC- PVC- ABS PVDF PE-
m.p. b.p. Concentra- T PE- PE-
OC OC tion % OC LD HD
u c X
56
Beer Work.sol. 20 S S s s s S S
50 S S
60 S S s s s S
120
57 Benzaldehyde - 26 178
20 NS NS
091
50
NS
60 NS
tg-1 20 L L NS NS NS
50 NS NS
60 NS NS NS NS
5a Benzene 6 ao tg-1
20 NS L NS NS NS NS s s
50 NS L
60 NS NS NS NS
100 NS
59 Benzoic acid
122 250 Sat.sol 20 s s s L S S S
50 S S S
60 S S S NS S
tg-s 120
S
Benzoyl chloride - 1 198
Sat.sol 20 L
tg-1
20 NS NS NS
50 NS
60 NS NS
61 Benzyl alcohol
- 15 205 tg-1 20 NS S NS S
50 NS S
60 NS L
62 Benzyl chloride
- 39 179 tg-1 20 NS S
50 NS S
60 S
63 Bismuth carbonate Sat.sol
20 s s s s S
50 S
60 S s s s
64 Borax Sel. 20 s s s s S S
50 S S
60 S s s s S
100 S
Sat.sol 20 s s s s S S
50 S S
60 S s s L S
ao
100 S
65 Boric acid Dil.sol s s s S S
20 s
50 S S
60 S s L S
100 S
Sat.sol 20 s s S
s S
50 S S
S
60 S S
100 S
10
---------------------- Page: 16 ----------------------
ISOITR 10358:1993(E/F)
wc- PVC- ABS
Chemical m.p. b.p. Concentra- PE- PE- PP PB PVDF PE-
OC
OC tion % OC HD u c X
66 Boron trifluoride -129 -101 Sat.sol. 20 S S S S S S
60 S
67 Bromic acid Sat.sol. 20 S
(Dec. at 1OOOC) 60 S
10 20 S
tg-s 100
68 Bromine, gas - 7 58 20 NS NS NS
NS NS
tg-Cl
50 NS
60 NS NS NS NS
100 NS
69 Bromine, liquid - 7 58 tg-1 20 NS NS NS NS NS S
50 NS S
60 NS NS NS NS NS S
100 NS S
120 S
70 Bromine water Sat.sol 20 L S
L S
60
ao S
71 Bromoethane -119 38 NS
tg-1 20
50 NS
60
72 Butadiene, gas - 5 20 S S S
tg-9
713
60 S S
mm 100 S
73 Butane, gas -135 -0,5 S S s s
20
Q-9
50 S
60 NS S
74 n-Butan01 - ao 117 tg-1 20 s S S S NS S
50 S NS S
60 L S S S
ao L
NS
100
75 Butyl acetate - 77 126 tg-1 20 NS NS
NS L
40
50 NS NS
60 NS NS NS NS
NS
100 NS
76 171 s s
Butyl glycol tg-1 20
50 NS S
100 S
77 Butylphenols 98 237 Sat.sol 20 NS NS S
NS S
50
NS S
60
ao S
78 Butyl phthalate NS
tg-1 20 S NS NS S
NS S
50
NS S
60
100
11
---------------------- Page: 17 ----------------------
ISOITR 10358:1993(E/F)
No. Chemical m.p. b.p. Concentra- T PE- PE- PP PB PVC- PVC- ABS PVDF PE-
OC tion % OC LD HD
OC u c X
79 Butyric acid - 5 164 20 20 s s S NS
50 NS
60 L NS
100
tg-1 20 L S NS S NS
50 NS
60 L L NS
ao
ao Butyryl chloride - 89 tg-1 NS
20
50 NS
81 Calcium bisulphite
Sat.sol 20 S S
S
50
60
120
82 Calcium bromide Sat.sol 20 S S
S S
50
83 Calcium carbonate susp. 20 s S s s s S S
S
50 S
60 S S s s s S
100 S
120
Calcium chlorate Sat.sol. 20 s S s s s S S
S S
50
60 S S s s s S
120
85 Calcium chloride Sat.sol. 20 s S s s s S S
S S
50
60 S S s s s S
ao S
S L
100
120
86 Calcium hydroxide Sat.sol. s s s S S NS
20 s
50 S S
S
60 S s s s
87 Calcium hypochlorite Sel. 20 s s s S S
S S
(Dec.at 10% chlorine) 50
60 S S S
Sat.sol. 100 L
88 Calcium nitrate Sat.sol. 20 s S s s s S S
50 S S
S s s s
60 S S
ao
50 100
susp. S s s s S S
Calcium sulphate 20 s
50 S S
60 S S s s s S
120
S
90 Calcium sulphide Dil.sol. 20
60
12
---------------------- Page: 18 ----------------------
ISOITR 10358:1993(E/F)
No. Chemical m.p. b.p. Concentra- T PE- PE- pp PB PVC- PVC- ABS PVDF PE-
OC OC tion % OC LD HD
u c
X
91 Calcium hydrogen
sulphide Sel. 20 s s sss
60 S s sss
120
92 Camphor oil
175 tg-1 20 NS
to
60 NS
200 100
NS
93 Carbon dioxide,
Sat.sol. 20 s s
aqueous sol.
50
60 s s
94 Carbon dioxide,
w9 20 s s sss
dry gas 50
60 S s sss
120
95 Carbon dioxide,
20 s s sss
Q-g
wet gas
50
60 S s sss
96 Carbon disulphide -112
tg-1 20 NS L s NS NS NS
50 NS
60 NS NS NS NS NS
100 NS
97 Carbon monoxide,
20 s s sss
tg-9
50
Cl=-
s sss
60 S
98 Carbon tetra- - 23 77 tg-1 NS
20 NS NS L
chloride 50 NS
60 NS NS NS NS NS NS
L
100 NS
99 Castor oil tg-1 20
100 Chlorine, aqueous (sec 102)
101 Chlorine, dry gas 20 NS L NS NS L NS S
Q-9
50 NS S
6
...
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