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ISO 15380:2016

(Main)

Lubricants, industrial oils and related products (class L) - Family H (Hydraulic systems) - Specifications for hydraulic fluids in categories HETG, HEPG, HEES and HEPR

Lubricants, industrial oils and related products (class L) - Family H (Hydraulic systems) - Specifications for hydraulic fluids in categories HETG, HEPG, HEES and HEPR

ISO 15380:2016 specifies the requirements for environmentally acceptable hydraulic fluids and is intended for hydraulic systems, particularly hydraulic fluid power systems. The purpose of this International Standard is to provide guidance for suppliers and users of environmentally acceptable hydraulic fluids and for the direction of original equipment manufacturers of hydraulic systems. ISO 15380:2016 stipulates the requirements for environmentally acceptable hydraulic fluids at the time of delivery. Classification of fluids used in hydraulic application is defined in ISO 6743‑4. ISO 15380:2016 encompasses only four of the categories of environmentally acceptable fluids covered by ISO 6743‑4. These categories are HETG, HEPG, HEES and HEPR. The minimum content of base fluid for each category shall not be less than 70 % (m/m).

Lubrifiants, huiles industrielles et produits connexes (classe L) — Famille H (Systèmes hydrauliques) — Spécifications applicables aux fluides hydrauliques des catégories HETG, HEPG, HEES et HEPR

ISO 15380:2016 spécifié les exigences relatives aux fluides hydrauliques acceptables pour l'environnement. Elle s'applique aux systèmes hydrauliques, en particulier dans les applications hydrostatiques. La présente Norme internationale a pour objet de procurer des indications aux fournisseurs et utilisateurs de fluides acceptables pour l'environnement, et d'apporter des instructions aux constructeurs de systèmes hydrauliques. ISO 15380:2016 spécifie les exigences applicables au moment de leur livraison aux fluides hydrauliques acceptables pour l'environnement. La classification des fluides utilisés dans les applications hydrauliques est définie dans l'ISO 6743‑4. ISO 15380:2016 traite seulement quatre catégories de celles concernant les fluides acceptables pour l'environnement, couverts par l'ISO 6743‑4. Ces catégories sont les suivantes: HETG, HEPG, HEES et HEPR. La teneur minimale en fluide de base pour chaque catégorie ne doit pas être inférieure à 70 % (m/m).

Maziva, industrijska olja in sorodni proizvodi (skupina L) - Podskupina H (hidravlični sistemi) - Specifikacije za hidravlične tekočine kategorije HETG, HEPG, HEES in HEPR

Ta mednarodni standard določa zahteve za okoljsko sprejemljive hidravlične tekočine in je namenjen za hidravlične sisteme, zlasti napajalne sisteme, ki delujejo na hidravlične tekočine. Namen tega mednarodnega standarda je zagotoviti smernice za dobavitelje in uporabnike okoljsko sprejemljivih hidravličnih tekočin ter proizvajalce originalne opreme za hidravlične sisteme.
Ta mednarodni standard predpisuje zahteve za okoljsko sprejemljive hidravlične
tekočine v času dobave.
Razvrstitev tekočin za hidravlično uporabo je opredeljena v standardu ISO 6743-4. Ta mednarodni
standard zajema samo štiri kategorije okoljsko sprejemljivih tekočin, ki so zajete v standardu
ISO 6743-4. Te kategorije so HETG, HEPG, HEES in HEPR. Najmanjša vsebnost osnovne tekočine za vsako kategorijo ne sme biti manjša od 70 % (m/m).

General Information

Status
Withdrawn
Publication Date
20-Nov-2016
ICS
75.100 - Lubricants, industrial oils and related products
Technical Committee
ISO/TC 28/SC 4 - Classifications and specifications
Drafting Committee
ISO/TC 28/SC 4/WG 3 - Joint ISO/TC 28/SC 4 - ISO/TC 131 WG: Classification and specifications of hydraulic fluids
Parallel Committee
ISO/TC 131 - Fluid power systems
Current Stage
9599 - Withdrawal of International Standard
Start Date
26-Oct-2023
Completion Date
13-Dec-2025
Ref Project
SIST ISO 15380:2017 - Lubricants, industrial oils and related products (class L) - Family H (Hydraulic systems) - Specifications for hydraulic fluids in categories HETG, HEPG, HEES and HEPR

Relations

Revised
ISO 15380:2023 - Lubricants, industrial oils and related products (class L) - Family H (Hydraulic systems) - Specifications for hydraulic fluids in categories HETG, HEPG, HEES and HEPR
Effective Date
06-Jun-2022
Revises
ISO 15380:2011 - Lubricants, industrial oils and related products (class L) - Family H (Hydraulic systems) - Specifications for categories HETG, HEPG, HEES and HEPR
Effective Date
15-Mar-2014
ISO 15380:2017ISO 15380:2017
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ISO 15380:2016 - Lubricants, industrial oils and related products (class L) -- Family H (Hydraulic systems) -- Specifications for hydraulic fluids in categories HETG, HEPG, HEES and HEPRISO 15380:2016 - Lubricants, industrial oils and related products (class L) -- Family H (Hydraulic systems) -- Specifications for hydraulic fluids in categories HETG, HEPG, HEES and HEPR
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ISO 15380:2016 - Lubrifiants, huiles industrielles et produits connexes (classe L) -- Famille H (Systemes hydrauliques) -- Spécifications applicables aux fluides hydrauliques des catégories HETG, HEPG, HEES et HEPRISO 15380:2016 - Lubrifiants, huiles industrielles et produits connexes (classe L) -- Famille H (Systemes hydrauliques) -- Spécifications applicables aux fluides hydrauliques des catégories HETG, HEPG, HEES et HEPR
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Frequently Asked Questions

ISO 15380:2016 is a standard published by the International Organization for Standardization (ISO). Its full title is "Lubricants, industrial oils and related products (class L) - Family H (Hydraulic systems) - Specifications for hydraulic fluids in categories HETG, HEPG, HEES and HEPR". This standard covers: ISO 15380:2016 specifies the requirements for environmentally acceptable hydraulic fluids and is intended for hydraulic systems, particularly hydraulic fluid power systems. The purpose of this International Standard is to provide guidance for suppliers and users of environmentally acceptable hydraulic fluids and for the direction of original equipment manufacturers of hydraulic systems. ISO 15380:2016 stipulates the requirements for environmentally acceptable hydraulic fluids at the time of delivery. Classification of fluids used in hydraulic application is defined in ISO 6743‑4. ISO 15380:2016 encompasses only four of the categories of environmentally acceptable fluids covered by ISO 6743‑4. These categories are HETG, HEPG, HEES and HEPR. The minimum content of base fluid for each category shall not be less than 70 % (m/m).

ISO 15380:2016 specifies the requirements for environmentally acceptable hydraulic fluids and is intended for hydraulic systems, particularly hydraulic fluid power systems. The purpose of this International Standard is to provide guidance for suppliers and users of environmentally acceptable hydraulic fluids and for the direction of original equipment manufacturers of hydraulic systems. ISO 15380:2016 stipulates the requirements for environmentally acceptable hydraulic fluids at the time of delivery. Classification of fluids used in hydraulic application is defined in ISO 6743‑4. ISO 15380:2016 encompasses only four of the categories of environmentally acceptable fluids covered by ISO 6743‑4. These categories are HETG, HEPG, HEES and HEPR. The minimum content of base fluid for each category shall not be less than 70 % (m/m).

ISO 15380:2016 is classified under the following ICS (International Classification for Standards) categories: 75.100 - Lubricants, industrial oils and related products. The ICS classification helps identify the subject area and facilitates finding related standards.

ISO 15380:2016 has the following relationships with other standards: It is inter standard links to ISO 15380:2023, ISO 15380:2011. Understanding these relationships helps ensure you are using the most current and applicable version of the standard.

You can purchase ISO 15380:2016 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)


SLOVENSKI STANDARD
01-maj-2017
1DGRPHãþD
SIST ISO 15380:2011
0D]LYDLQGXVWULMVNDROMDLQVRURGQLSURL]YRGL VNXSLQD/ 3RGVNXSLQD+
KLGUDYOLþQLVLVWHPL 6SHFLILNDFLMH]DKLGUDYOLþQHWHNRþLQHNDWHJRULMH+(7*+(3*
+((6LQ+(35
Lubricants, industrial oils and related products (class L) - Family H (Hydraulic systems) -
Specifications for hydraulic fluids in categories HETG, HEPG, HEES and HEPR
Lubrifiants, huiles industrielles et produits connexes (classe L) - Famille H (Systèmes
hydrauliques) - Spécifications applicables aux fluides hydrauliques des catégories
HETG, HEPG, HEES et HEPR
Ta slovenski standard je istoveten z: ISO 15380:2016
ICS:
75.100 Maziva Lubricants, industrial oils and
related products
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

INTERNATIONAL ISO
STANDARD 15380
Third edition
2016-12-01
Lubricants, industrial oils and
related products (class L) — Family H
(Hydraulic systems) — Specifications
for hydraulic fluids in categories
HETG, HEPG, HEES and HEPR
Lubrifiants, huiles industrielles et produits connexes (classe L) —
Famille H (Systèmes hydrauliques) — Spécifications applicables aux
fluides hydrauliques des catégories HETG, HEPG, HEES et HEPR
Reference number
©
ISO 2016
© ISO 2016, Published in Switzerland
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized otherwise in any form
or by any means, electronic or mechanical, including photocopying, or posting on the internet or an intranet, without prior
written permission. Permission can be requested from either ISO at the address below or ISO’s member body in the country of
the requester.
ISO copyright office
Ch. de Blandonnet 8 • CP 401
CH-1214 Vernier, Geneva, Switzerland
Tel. +41 22 749 01 11
Fax +41 22 749 09 47
copyright@iso.org
www.iso.org
ii © ISO 2016 – All rights reserved

Contents Page
Foreword .iv
Introduction .v
1 Scope . 1
2 Normative references . 1
3 Sampling . 3
4 Requirements of environmentally acceptable hydraulic fluids .3
Annex A (informative) Guidelines for changing fluids from mineral-based oils to
environmentally acceptable fluids .13
Annex B (informative) Additional information on shear stability .17
Annex C (informative) Disposal of hydraulic fluids .18
Bibliography .19
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 technical committees. Each 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 part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www.iso.org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www.iso.org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation on the meaning of ISO specific terms and expressions related to conformity assessment,
as well as information about ISO’s adherence to the World Trade Organization (WTO) principles in the
Technical Barriers to Trade (TBT) see the following URL: www.iso.org/iso/foreword.html.
The committee responsible for this document is ISO/TC 28, Petroleum products and related products of
synthetic or biological origin, Subcommittee SC 4, Classifications and specifications.
This third edition cancels and replaces the second edition (ISO 15380:2011), which has been technically
revised.
iv © ISO 2016 – All rights reserved

Introduction
[1]
The specifications for hydraulic fluids based upon mineral oils (H) are described in ISO 11158 while
[2]
the specifications for fire‑resistant hydraulic fluids (HF) are given in ISO 12922 . This International
Standard gives specifications for environmentally acceptable hydraulic fluids (HE). These fluids are
readily biodegradable and have a low eco‑toxicity. They are designed to minimize the impact upon the
environment in the event of a leak or spill.
This International Standard contains three informative annexes. Annex A contains guidelines for
changing fluids from mineral‑based oils to environmentally acceptable fluids. Annex B contains
additional information on shear stability. Annex C covers the disposal of hydraulic fluids.
INTERNATIONAL STANDARD ISO 15380:2016(E)
Lubricants, industrial oils and related products
(class L) — Family H (Hydraulic systems) — Specifications
for hydraulic fluids in categories HETG, HEPG, HEES and
HEPR
WARNING — The handling and use of products as specified in this International Standard can
be hazardous if suitable precautions are not observed. This International Standard does not
purport to address all of the safety problems associated with its use. It is the responsibility
of the user of this International Standard to establish appropriate safety and health practices
and determine the applicability of regulatory limitations prior to use. The environmentally
acceptable fluids should not present any significant hazard to health when used correctly in
hydraulic equipment, observing the supplier’s handling recommendations.
1 Scope
This International Standard specifies the requirements for environmentally acceptable hydraulic fluids
and is intended for hydraulic systems, particularly hydraulic fluid power systems. The purpose of this
International Standard is to provide guidance for suppliers and users of environmentally acceptable
hydraulic fluids and for the direction of original equipment manufacturers of hydraulic systems.
This International Standard stipulates the requirements for environmentally acceptable hydraulic
fluids at the time of delivery.
Classification of fluids used in hydraulic application is defined in ISO 6743‑4. This International
Standard encompasses only four of the categories of environmentally acceptable fluids covered by
ISO 6743‑4. These categories are HETG, HEPG, HEES and HEPR. The minimum content of base fluid for
each category shall not be less than 70 % (m/m).
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.
ISO 2049, Petroleum products — Determination of colour (ASTM scale)
ISO 2160, Petroleum products — Corrosiveness to copper — Copper strip test
ISO 2592, Determination of flash and fire points — Cleveland open cup method
ISO 3016, Petroleum products — Determination of pour point
ISO 3104, Petroleum products — Transparent and opaque liquids — Determination of kinematic viscosity
and calculation of dynamic viscosity
ISO 3170, Petroleum liquids — Manual sampling
ISO 3448, Industrial liquid lubricants — ISO viscosity classification
ISO 3675, Crude petroleum and liquid petroleum products — Laboratory determination of density —
Hydrometer method
ISO 4259, Petroleum products — Determination and application of precision data in relation to
methods of test
ISO 4263-1, Petroleum and related products — Determination of the ageing behaviour of inhibited oils and
fluids — TOST test — Part 1: Procedure for mineral oils
ISO 4263-3, Petroleum and related products — Determination of the ageing behaviour of inhibited oils and
fluids using the TOST test — Part 3: Anhydrous procedure for synthetic hydraulic fluids
ISO 4406, Hydraulic fluid power — Fluids — Method for coding the level of contamination by solid particles
ISO 6072, Rubber — Compatibility between hydraulic fluids and standard elastomeric materials
ISO 6245, Petroleum products — Determination of ash
ISO 6247, Petroleum products — Determination of foaming characteristics of lubricating oils
ISO 6296, Petroleum products — Determination of water — Potentiometric Karl Fischer titration method
ISO 6341, Water quality — Determination of the inhibition of the mobility of Daphnia magna Straus
(Cladocera, Crustacea) — Acute toxicity test
ISO 6614, Petroleum products — Determination of water separability of petroleum oils and synthetic fluids
ISO 6618, Petroleum products and lubricants — Determination of acid or base number — Colour-indicator
titration method
ISO 6619, Petroleum products and lubricants — Neutralization number — Potentiometric titration method
ISO 6743-4, Lubricants, industrial oils and related products (class L) — Classification — Part 4: Family H
(Hydraulic systems)
ISO 7120, Petroleum products and lubricants — Petroleum oils and other fluids — Determination of rust-
preventing characteristics in the presence of water
ISO 7346-2, Water quality — Determination of the acute lethal toxicity of substances to a freshwater fish
[Brachydanio rerio Hamilton-Buchanan (Teleostei, Cyprinidae)] — Part 2: Semi-static method
ISO 8192, Water quality — Test for inhibition of oxygen consumption by activated sludge for carbonaceous
and ammonium oxidation
ISO 9120, Petroleum and related products — Determination of air-release properties of steam turbine and
other oils — Impinger method
ISO 9439, Water quality — Evaluation of ultimate aerobic biodegradability of organic compounds in
aqueous medium — Carbon dioxide evolution test
ISO 10634, Water quality — Guidance for the preparation and treatment of poorly water-soluble organic
compounds for the subsequent evaluation of their biodegradability in an aqueous medium
ISO 11500, Hydraulic fluid power — Determination of the particulate contamination level of a liquid sample
by automatic particle counting using the light-extinction principle
ISO 12185, Crude petroleum and petroleum products — Determination of density — Oscillating U-tube
method
ISO 12937, Petroleum products — Determination of water — Coulometric Karl Fischer titration method
ISO 14593, Water quality — Evaluation of ultimate aerobic biodegradability of organic compounds in
aqueous medium — Method by analysis of inorganic carbon in sealed vessels (CO headspace test)
ISO 14635-1, Gears — FZG test procedures — Part 1: FZG test method A/8,3/90 for relative scuffing load-
carrying capacity of oils
ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories
2 © ISO 2016 – All rights reserved

ISO 20763, Petroleum and related products — Determination of anti-wear properties of hydraulic fluids —
Vane pump method
DIN 51554-3, Testing of mineral oils; Test of susceptibility to ageing according to Baader; Testing at 95 °C
ASTM D2532, Standard Test Method for Viscosity and Viscosity Change After Standing at Low Temperature
of Aircraft Turbine Lubricants
3 Sampling
Sampling of hydraulic fluids for the purpose of this International Standard shall be carried out in
accordance with the pertinent procedure specified in ISO 3170. A representative test specimen should
be taken for analysis.
Any drum, barrel, tanker compartment or other type of container delivered to the end user may be
sampled and analyzed at the purchaser’s discretion.
4 Requirements of environmentally acceptable hydraulic fluids
For the purpose of this International Standard, hydraulic fluids shall be triglycerides, polyglycols,
synthetic esters, polyalphaolefins and related hydrocarbon products. The classification of these
hydraulic oils shall be in accordance with ISO 6743‑4 for categories HETG, HEPG, HEES and HEPR. The
minimum content of base fluid for each category shall not be less than 70 % (m/m).
Fluid classification should correspond to the major base stock component.
When tested using prescribed methods, the fluids’ characteristics shall comply with limiting values set
out in Table 1 to Table 5, where applicable.
The appearance of the delivered oils shall be clear and bright and free of any visible particulate
matter when viewed under normal visible light at ambient temperature. The cleanliness level shall be
expressed according to ISO 4406 and ISO 11500.
The precision (repeatability and reproducibility) of the test methods in this International Standard
and the interpretation of the results shall be in accordance with ISO 4259, which shall be consulted in
instances of uncertainty or dispute.
The environmental behaviour specifications for categories HETG, HEPG, HEES and HEPR are given in
Table 1.
Table 1 — Environmental behaviour requirements for categories HETG, HEPG, HEES and HEPR
Test method or
Characteristic of test Unit Requirement
applicable standard
Biodegradability, 28 days, min. % 60 ISO 14593 or ISO 9439
a
Toxicity
Acute fish toxicity, 96 h, LC50, min. mg/l 100 ISO 7346-2
Acute Daphnia toxicity, 48 h, EC50, min. mg/l 100 ISO 6341
Bacterial inhibition, 3 h, EC50, min. mg/l 100 ISO 8192
a
Water‑soluble fluids shall be tested according to the test method cited. Fluids with low water
solubility shall be tested using water‑accommodated fractions, prepared according to ISO 10634.
The biodegradability and aquatic toxicity tests shall be performed in a laboratory operating in
accordance with ISO/IEC 17025 or according to Good Laboratory Practice (GLP).
All other detailed specifications of each category mentioned in this International Standard are provided
in Table 2 to Table 5, respectively and as indicated below:
— Table 2: category HETG;
— Table 3: category HEPG;
— Table 4: category HEES;
— Table 5: category HEPR.
All of the categories listed above pertain to lubricants, industrial oils and related products of Group HE,
i.e. environmentally acceptable hydraulic fluids, a typical application of which is in general hydraulic
systems. The composition of each category is specified in the title of the tables. These elements are
taken from ISO 6743-4.
4 © ISO 2016 – All rights reserved

Table 2 — Specifications for type HETG hydraulic fluids, triglycerides
Test method
Characteristic of test Requirement or applicable
Unit
standard
Viscosity grade 22 32 46 68 ISO 3448
ISO 12185
3 a a a a
Density at 15 °C kg/m — — — —
ISO 3675
b a a a a
Colour — — — — — ISO 2049
c c c c
Appearance at 25 °C — Clbr Clbr Clbr Clbr —
d d d d
Ash content, max. % (m/m) — — — — ISO 6245
Flash point
°C 165 175 185 195 ISO 2592
Cleveland open cup, min.
Kinematic viscosity
2 d d d d
at ‑20 °C, max. mm /s — — — —
at 0 °C, max. mm /s 300 420 780 1 400 ISO 3104
at 40 °C, min. to max. mm /s 19,8 to 24,2 28,8 to 35,2 41,4 to 50,6 61,2 to 74,8
at 100 °C, min. mm /s 4,1 5,0 6,1 7,8
d d d d
Pour point, max. °C — — — — ISO 3016
Low temperature fluidity
d d d d
°C — — — — ASTM D2532
after 7 days
ISO 6618
e d d d d
Acid number, max. mg KOH/g — — — —
ISO 6619
ISO 12937
Water content mg/kg 1 000 1 000 1 000 1 000
ISO 6296
ISO 4406
d d d d d
Cleanliness level, max — — — —
ISO 11500
Copper corrosion, 100 °C
rating 2 2 2 2 ISO 2160
3 h, max.
Rust prevention, procedure
— Pass Pass Pass Pass ISO 7120
A, 24 h
Foam
at 24 °C, max. (Sequence I) ml 150/0 150/0 150/0 150/0
ISO 6247
at 93 °C, max. (Sequence II) ml 80/0 80/0 80/0 80/0
at 24 °C, max. (Sequence III) ml 150/0 150/0 150/0 150/0
Air release, 50 °C, max. min 7 7 10 10 ISO 9120
Water separation
Time to 3 ml emulsion at
d d d d
min — — — — ISO 6614
54 °C, max.
Table 2 (continued)
Test method
Characteristic of test Requirement or applicable
Unit
standard
Viscosity grade 22 32 46 68 ISO 3448
f
Elastomer compatibility
after 1 000 h at given tem-
perature
NBR 1 °C 60 80 80 80
HNBR °C 60 80 80 80
FKM 2 °C 60 80 80 80
g
AU °C 60 80 80 80
Change in shore A hardness,
ISO 6072
grade ±10 ±10 ±10 ±10
max.
Change in volume, max. % -3 to +10 -3 to +10 -3 to +10 -3 to +10
Change in elongation, max. % 30 30 30 30
Change in tensile strength,
% 30 30 30 30
max.
Oxidation stability:
Time to reach
ad ad ad ad
h — — — —
ΔTAN = 2 mg KOH/g, min.
ISO 4263-3
DIN 51554-3
Baader test, 95 °C, 72 h
Increase in viscosity at
% 20 20 20 20
40 °C, max.
Load‑carrying properties,
h
stage — 10 10 10 ISO 14635-1
FZG A/8,3/90, min.
i
Vane pump, Procedure A
Ring, max. mg 120 120 120 120 ISO 20763
Vane, max. mg 30 30 30 30
a
Report.
b
For purposes of identification, dye may be used by agreement between supplier and end user.
c
“Clear and bright” is abbreviated as Clbr.
d
Criteria of performance or values of characteristics to be negotiated between supplier and end user.
e
The initial acid number is given by the base fluids and the additives.
f
The requirements for two of the listed elastomer types shall be met. The values are minimum require-
ments for standard reference elastomers. The elastomers are suitable for guidance and selection of the correct
sealing material. Other materials and/or test conditions may be agreed between supplier and customer. The
applicability to the behaviour of the elastomer used in practice should be considered.
g
No hydrolytic stabilized elastomer exists for AU. Manufacturers produce stabilized AU materials for practi-
cal applications. It is recommended that users clarify this point with the elastomer manufacturer.
h
Not applicable to viscosity grade 22.
i
There are currently no precision data for the method when non‑Eaton/Vickers test cartridges (e.g. Cones-
toga USA, Inc. and Tokimec) are used. Consequently, no absolute mass loss limits can be stipulated until the
precision of V104C pump cartridges from the new supplier has been determined. In the interim, the limits pre-
viously establishe
...


INTERNATIONAL ISO
STANDARD 15380
Third edition
2016-12-01
Lubricants, industrial oils and
related products (class L) — Family H
(Hydraulic systems) — Specifications
for hydraulic fluids in categories
HETG, HEPG, HEES and HEPR
Lubrifiants, huiles industrielles et produits connexes (classe L) —
Famille H (Systèmes hydrauliques) — Spécifications applicables aux
fluides hydrauliques des catégories HETG, HEPG, HEES et HEPR
Reference number
©
ISO 2016
© ISO 2016, Published in Switzerland
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized otherwise in any form
or by any means, electronic or mechanical, including photocopying, or posting on the internet or an intranet, without prior
written permission. Permission can be requested from either ISO at the address below or ISO’s member body in the country of
the requester.
ISO copyright office
Ch. de Blandonnet 8 • CP 401
CH-1214 Vernier, Geneva, Switzerland
Tel. +41 22 749 01 11
Fax +41 22 749 09 47
copyright@iso.org
www.iso.org
ii © ISO 2016 – All rights reserved

Contents Page
Foreword .iv
Introduction .v
1 Scope . 1
2 Normative references . 1
3 Sampling . 3
4 Requirements of environmentally acceptable hydraulic fluids .3
Annex A (informative) Guidelines for changing fluids from mineral-based oils to
environmentally acceptable fluids .13
Annex B (informative) Additional information on shear stability .17
Annex C (informative) Disposal of hydraulic fluids .18
Bibliography .19
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 technical committees. Each 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 part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www.iso.org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www.iso.org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation on the meaning of ISO specific terms and expressions related to conformity assessment,
as well as information about ISO’s adherence to the World Trade Organization (WTO) principles in the
Technical Barriers to Trade (TBT) see the following URL: www.iso.org/iso/foreword.html.
The committee responsible for this document is ISO/TC 28, Petroleum products and related products of
synthetic or biological origin, Subcommittee SC 4, Classifications and specifications.
This third edition cancels and replaces the second edition (ISO 15380:2011), which has been technically
revised.
iv © ISO 2016 – All rights reserved

Introduction
[1]
The specifications for hydraulic fluids based upon mineral oils (H) are described in ISO 11158 while
[2]
the specifications for fire‑resistant hydraulic fluids (HF) are given in ISO 12922 . This International
Standard gives specifications for environmentally acceptable hydraulic fluids (HE). These fluids are
readily biodegradable and have a low eco‑toxicity. They are designed to minimize the impact upon the
environment in the event of a leak or spill.
This International Standard contains three informative annexes. Annex A contains guidelines for
changing fluids from mineral‑based oils to environmentally acceptable fluids. Annex B contains
additional information on shear stability. Annex C covers the disposal of hydraulic fluids.
INTERNATIONAL STANDARD ISO 15380:2016(E)
Lubricants, industrial oils and related products
(class L) — Family H (Hydraulic systems) — Specifications
for hydraulic fluids in categories HETG, HEPG, HEES and
HEPR
WARNING — The handling and use of products as specified in this International Standard can
be hazardous if suitable precautions are not observed. This International Standard does not
purport to address all of the safety problems associated with its use. It is the responsibility
of the user of this International Standard to establish appropriate safety and health practices
and determine the applicability of regulatory limitations prior to use. The environmentally
acceptable fluids should not present any significant hazard to health when used correctly in
hydraulic equipment, observing the supplier’s handling recommendations.
1 Scope
This International Standard specifies the requirements for environmentally acceptable hydraulic fluids
and is intended for hydraulic systems, particularly hydraulic fluid power systems. The purpose of this
International Standard is to provide guidance for suppliers and users of environmentally acceptable
hydraulic fluids and for the direction of original equipment manufacturers of hydraulic systems.
This International Standard stipulates the requirements for environmentally acceptable hydraulic
fluids at the time of delivery.
Classification of fluids used in hydraulic application is defined in ISO 6743‑4. This International
Standard encompasses only four of the categories of environmentally acceptable fluids covered by
ISO 6743‑4. These categories are HETG, HEPG, HEES and HEPR. The minimum content of base fluid for
each category shall not be less than 70 % (m/m).
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.
ISO 2049, Petroleum products — Determination of colour (ASTM scale)
ISO 2160, Petroleum products — Corrosiveness to copper — Copper strip test
ISO 2592, Determination of flash and fire points — Cleveland open cup method
ISO 3016, Petroleum products — Determination of pour point
ISO 3104, Petroleum products — Transparent and opaque liquids — Determination of kinematic viscosity
and calculation of dynamic viscosity
ISO 3170, Petroleum liquids — Manual sampling
ISO 3448, Industrial liquid lubricants — ISO viscosity classification
ISO 3675, Crude petroleum and liquid petroleum products — Laboratory determination of density —
Hydrometer method
ISO 4259, Petroleum products — Determination and application of precision data in relation to
methods of test
ISO 4263-1, Petroleum and related products — Determination of the ageing behaviour of inhibited oils and
fluids — TOST test — Part 1: Procedure for mineral oils
ISO 4263-3, Petroleum and related products — Determination of the ageing behaviour of inhibited oils and
fluids using the TOST test — Part 3: Anhydrous procedure for synthetic hydraulic fluids
ISO 4406, Hydraulic fluid power — Fluids — Method for coding the level of contamination by solid particles
ISO 6072, Rubber — Compatibility between hydraulic fluids and standard elastomeric materials
ISO 6245, Petroleum products — Determination of ash
ISO 6247, Petroleum products — Determination of foaming characteristics of lubricating oils
ISO 6296, Petroleum products — Determination of water — Potentiometric Karl Fischer titration method
ISO 6341, Water quality — Determination of the inhibition of the mobility of Daphnia magna Straus
(Cladocera, Crustacea) — Acute toxicity test
ISO 6614, Petroleum products — Determination of water separability of petroleum oils and synthetic fluids
ISO 6618, Petroleum products and lubricants — Determination of acid or base number — Colour-indicator
titration method
ISO 6619, Petroleum products and lubricants — Neutralization number — Potentiometric titration method
ISO 6743-4, Lubricants, industrial oils and related products (class L) — Classification — Part 4: Family H
(Hydraulic systems)
ISO 7120, Petroleum products and lubricants — Petroleum oils and other fluids — Determination of rust-
preventing characteristics in the presence of water
ISO 7346-2, Water quality — Determination of the acute lethal toxicity of substances to a freshwater fish
[Brachydanio rerio Hamilton-Buchanan (Teleostei, Cyprinidae)] — Part 2: Semi-static method
ISO 8192, Water quality — Test for inhibition of oxygen consumption by activated sludge for carbonaceous
and ammonium oxidation
ISO 9120, Petroleum and related products — Determination of air-release properties of steam turbine and
other oils — Impinger method
ISO 9439, Water quality — Evaluation of ultimate aerobic biodegradability of organic compounds in
aqueous medium — Carbon dioxide evolution test
ISO 10634, Water quality — Guidance for the preparation and treatment of poorly water-soluble organic
compounds for the subsequent evaluation of their biodegradability in an aqueous medium
ISO 11500, Hydraulic fluid power — Determination of the particulate contamination level of a liquid sample
by automatic particle counting using the light-extinction principle
ISO 12185, Crude petroleum and petroleum products — Determination of density — Oscillating U-tube
method
ISO 12937, Petroleum products — Determination of water — Coulometric Karl Fischer titration method
ISO 14593, Water quality — Evaluation of ultimate aerobic biodegradability of organic compounds in
aqueous medium — Method by analysis of inorganic carbon in sealed vessels (CO headspace test)
ISO 14635-1, Gears — FZG test procedures — Part 1: FZG test method A/8,3/90 for relative scuffing load-
carrying capacity of oils
ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories
2 © ISO 2016 – All rights reserved

ISO 20763, Petroleum and related products — Determination of anti-wear properties of hydraulic fluids —
Vane pump method
DIN 51554-3, Testing of mineral oils; Test of susceptibility to ageing according to Baader; Testing at 95 °C
ASTM D2532, Standard Test Method for Viscosity and Viscosity Change After Standing at Low Temperature
of Aircraft Turbine Lubricants
3 Sampling
Sampling of hydraulic fluids for the purpose of this International Standard shall be carried out in
accordance with the pertinent procedure specified in ISO 3170. A representative test specimen should
be taken for analysis.
Any drum, barrel, tanker compartment or other type of container delivered to the end user may be
sampled and analyzed at the purchaser’s discretion.
4 Requirements of environmentally acceptable hydraulic fluids
For the purpose of this International Standard, hydraulic fluids shall be triglycerides, polyglycols,
synthetic esters, polyalphaolefins and related hydrocarbon products. The classification of these
hydraulic oils shall be in accordance with ISO 6743‑4 for categories HETG, HEPG, HEES and HEPR. The
minimum content of base fluid for each category shall not be less than 70 % (m/m).
Fluid classification should correspond to the major base stock component.
When tested using prescribed methods, the fluids’ characteristics shall comply with limiting values set
out in Table 1 to Table 5, where applicable.
The appearance of the delivered oils shall be clear and bright and free of any visible particulate
matter when viewed under normal visible light at ambient temperature. The cleanliness level shall be
expressed according to ISO 4406 and ISO 11500.
The precision (repeatability and reproducibility) of the test methods in this International Standard
and the interpretation of the results shall be in accordance with ISO 4259, which shall be consulted in
instances of uncertainty or dispute.
The environmental behaviour specifications for categories HETG, HEPG, HEES and HEPR are given in
Table 1.
Table 1 — Environmental behaviour requirements for categories HETG, HEPG, HEES and HEPR
Test method or
Characteristic of test Unit Requirement
applicable standard
Biodegradability, 28 days, min. % 60 ISO 14593 or ISO 9439
a
Toxicity
Acute fish toxicity, 96 h, LC50, min. mg/l 100 ISO 7346-2
Acute Daphnia toxicity, 48 h, EC50, min. mg/l 100 ISO 6341
Bacterial inhibition, 3 h, EC50, min. mg/l 100 ISO 8192
a
Water‑soluble fluids shall be tested according to the test method cited. Fluids with low water
solubility shall be tested using water‑accommodated fractions, prepared according to ISO 10634.
The biodegradability and aquatic toxicity tests shall be performed in a laboratory operating in
accordance with ISO/IEC 17025 or according to Good Laboratory Practice (GLP).
All other detailed specifications of each category mentioned in this International Standard are provided
in Table 2 to Table 5, respectively and as indicated below:
— Table 2: category HETG;
— Table 3: category HEPG;
— Table 4: category HEES;
— Table 5: category HEPR.
All of the categories listed above pertain to lubricants, industrial oils and related products of Group HE,
i.e. environmentally acceptable hydraulic fluids, a typical application of which is in general hydraulic
systems. The composition of each category is specified in the title of the tables. These elements are
taken from ISO 6743-4.
4 © ISO 2016 – All rights reserved

Table 2 — Specifications for type HETG hydraulic fluids, triglycerides
Test method
Characteristic of test Requirement or applicable
Unit
standard
Viscosity grade 22 32 46 68 ISO 3448
ISO 12185
3 a a a a
Density at 15 °C kg/m — — — —
ISO 3675
b a a a a
Colour — — — — — ISO 2049
c c c c
Appearance at 25 °C — Clbr Clbr Clbr Clbr —
d d d d
Ash content, max. % (m/m) — — — — ISO 6245
Flash point
°C 165 175 185 195 ISO 2592
Cleveland open cup, min.
Kinematic viscosity
2 d d d d
at ‑20 °C, max. mm /s — — — —
at 0 °C, max. mm /s 300 420 780 1 400 ISO 3104
at 40 °C, min. to max. mm /s 19,8 to 24,2 28,8 to 35,2 41,4 to 50,6 61,2 to 74,8
at 100 °C, min. mm /s 4,1 5,0 6,1 7,8
d d d d
Pour point, max. °C — — — — ISO 3016
Low temperature fluidity
d d d d
°C — — — — ASTM D2532
after 7 days
ISO 6618
e d d d d
Acid number, max. mg KOH/g — — — —
ISO 6619
ISO 12937
Water content mg/kg 1 000 1 000 1 000 1 000
ISO 6296
ISO 4406
d d d d d
Cleanliness level, max — — — —
ISO 11500
Copper corrosion, 100 °C
rating 2 2 2 2 ISO 2160
3 h, max.
Rust prevention, procedure
— Pass Pass Pass Pass ISO 7120
A, 24 h
Foam
at 24 °C, max. (Sequence I) ml 150/0 150/0 150/0 150/0
ISO 6247
at 93 °C, max. (Sequence II) ml 80/0 80/0 80/0 80/0
at 24 °C, max. (Sequence III) ml 150/0 150/0 150/0 150/0
Air release, 50 °C, max. min 7 7 10 10 ISO 9120
Water separation
Time to 3 ml emulsion at
d d d d
min — — — — ISO 6614
54 °C, max.
Table 2 (continued)
Test method
Characteristic of test Requirement or applicable
Unit
standard
Viscosity grade 22 32 46 68 ISO 3448
f
Elastomer compatibility
after 1 000 h at given tem-
perature
NBR 1 °C 60 80 80 80
HNBR °C 60 80 80 80
FKM 2 °C 60 80 80 80
g
AU °C 60 80 80 80
Change in shore A hardness,
ISO 6072
grade ±10 ±10 ±10 ±10
max.
Change in volume, max. % -3 to +10 -3 to +10 -3 to +10 -3 to +10
Change in elongation, max. % 30 30 30 30
Change in tensile strength,
% 30 30 30 30
max.
Oxidation stability:
Time to reach
ad ad ad ad
h — — — —
ΔTAN = 2 mg KOH/g, min.
ISO 4263-3
DIN 51554-3
Baader test, 95 °C, 72 h
Increase in viscosity at
% 20 20 20 20
40 °C, max.
Load‑carrying properties,
h
stage — 10 10 10 ISO 14635-1
FZG A/8,3/90, min.
i
Vane pump, Procedure A
Ring, max. mg 120 120 120 120 ISO 20763
Vane, max. mg 30 30 30 30
a
Report.
b
For purposes of identification, dye may be used by agreement between supplier and end user.
c
“Clear and bright” is abbreviated as Clbr.
d
Criteria of performance or values of characteristics to be negotiated between supplier and end user.
e
The initial acid number is given by the base fluids and the additives.
f
The requirements for two of the listed elastomer types shall be met. The values are minimum require-
ments for standard reference elastomers. The elastomers are suitable for guidance and selection of the correct
sealing material. Other materials and/or test conditions may be agreed between supplier and customer. The
applicability to the behaviour of the elastomer used in practice should be considered.
g
No hydrolytic stabilized elastomer exists for AU. Manufacturers produce stabilized AU materials for practi-
cal applications. It is recommended that users clarify this point with the elastomer manufacturer.
h
Not applicable to viscosity grade 22.
i
There are currently no precision data for the method when non‑Eaton/Vickers test cartridges (e.g. Cones-
toga USA, Inc. and Tokimec) are used. Consequently, no absolute mass loss limits can be stipulated until the
precision of V104C pump cartridges from the new supplier has been determined. In the interim, the limits pre-
viously established for Eaton/Vickers cartridges may be used for guidance. It should be noted that ISO 20763
supersedes BS 2000: Part 281, IP 281 and DIN 51389. For fluids evaluated under the aforementioned methods,
the test data are considered to remain valid and no re-testing against ISO 20763 is required.
6 © ISO 2016 – All rights reserved

Table 3 — Specifications for type HEPG hydraulic fluids, polyglycols
Test method
Characteristic of test Requirement or applicable
Unit
standard
Viscosity grade 22 32 46 68 ISO 3448
ISO 121
...


NORME ISO
INTERNATIONALE 15380
Troisième édition
2016-12-01
Lubrifiants, huiles industrielles
et produits connexes (classe L) —
Famille H (Systèmes hydrauliques) —
Spécifications applicables aux fluides
hydrauliques des catégories HETG,
HEPG, HEES et HEPR
Lubricants, industrial oils and related products (class L) — Family H
(Hydraulic systems) — Specifications for hydraulic fluids in categories
HETG, HEPG, HEES and HEPR
Numéro de référence
©
ISO 2016
DOCUMENT PROTÉGÉ PAR COPYRIGHT
© ISO 2016, Publié en Suisse
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l’internet ou sur un Intranet, sans autorisation écrite préalable. Les demandes d’autorisation peuvent être adressées à l’ISO à
l’adresse ci-après ou au comité membre de l’ISO dans le pays du demandeur.
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ii © ISO 2016 – Tous droits réservés

Sommaire Page
Avant-propos .iv
Introduction .v
1 Domaine d’application .1
2 Références normatives .1
3 Échantillonnage .3
4 Exigences applicables aux fluides hydrauliques acceptables pour l’environnement .3
Annexe A (informative) Lignes directrices pour le remplacement de fluides à base d’huiles
minérales par des fluides acceptables pour l’environnement .13
Annexe B (informative) Informations complémentaires sur la stabilité au cisaillement .17
Annexe C (informative) Traitement des fluides hydrauliques rejetés .18
Bibliographie .19
Avant-propos
L’ISO (Organisation internationale de normalisation) est une fédération mondiale d’organismes
nationaux de normalisation (comités membres de l’ISO). L’élaboration des Normes internationales est
en général confiée aux comités techniques de l’ISO. Chaque comité membre intéressé par une étude
a le droit de faire partie du comité technique créé à cet effet. Les organisations internationales,
gouvernementales et non gouvernementales, en liaison avec l’ISO participent également aux travaux.
L’ISO collabore étroitement avec la Commission électrotechnique internationale (IEC) en ce qui
concerne la normalisation électrotechnique.
Les procédures utilisées pour élaborer le présent document et celles destinées à sa mise à jour sont
décrites dans les Directives ISO/IEC, Partie 1. Il convient, en particulier de prendre note des différents
critères d’approbation requis pour les différents types de documents ISO. Le présent document a été
rédigé conformément aux règles de rédaction données dans les Directives ISO/IEC, Partie 2 (voir www.
iso.org/directives).
L’attention est appelée sur le fait que certains des éléments du présent document peuvent faire l’objet de
droits de propriété intellectuelle ou de droits analogues. L’ISO ne saurait être tenue pour responsable
de ne pas avoir identifié de tels droits de propriété et averti de leur existence. Les détails concernant
les références aux droits de propriété intellectuelle ou autres droits analogues identifiés lors de
l’élaboration du document sont indiqués dans l’Introduction et/ou dans la liste des déclarations de
brevets reçues par l’ISO (voir www.iso.org/brevets).
Les appellations commerciales éventuellement mentionnées dans le présent document sont données
pour information, par souci de commodité, à l’intention des utilisateurs et ne sauraient constituer un
engagement.
Pour une explication de la signification des termes et expressions spécifiques de l’ISO liés à
l’évaluation de la conformité, ou pour toute information au sujet de l’adhésion de l’ISO aux principes
de l’OMC concernant les obstacles techniques au commerce (OTC), voir le lien suivant: Avant-propos —
Informations supplémentaires.
Le comité technique en charge de ce document est l’ISO/TC 28, Produits pétroliers et connexes d’origine
synthétique ou biologique, Sous-comité SC 4, Classifications et spécifications.
Cette troisième édition annule et remplace la seconde (ISO 15380:2011), qui fait l’objet d’une révision
technique.
iv © ISO 2016 – Tous droits réservés

Introduction
Les spécifications pour les fluides hydrauliques à base d’huiles minérales (H) sont décrites dans
[1]
l’ISO 11158 , celles concernant les fluides hydrauliques difficilement inflammables (HF) sont données
[2]
dans l’ISO 12922 . La présente Norme internationale spécifié les spécifications pour les fluides
hydrauliques acceptables pour l’environnement (HE). Ces fluides sont aisément biodégradables avec
une faible écotoxicité. Ils sont conçus pour que leur impact sur l’environnement soit minimisé en cas de
fuite ou de renversement.
La présente Norme internationale comprend trois annexes informatives. L’Annexe A est un ensemble de
lignes directrices pour le remplacement de fluides à base d’huiles minérales par des fluides acceptables
pour l’environnement. L’Annexe B contient des informations aditionnelles sur la stabilité au cisaillement.
L’Annexe C traite du traitement des fluides hydrauliques rejetés.
NORME INTERNATIONALE ISO 15380:2016(F)
Lubrifiants, huiles industrielles et produits connexes
(classe L) — Famille H (Systèmes hydrauliques) —
Spécifications applicables aux fluides hydrauliques des
catégories HETG, HEPG, HEES et HEPR
AVERTISSEMENT — La manipulation et l’utilisation des produits spécifiés dans la présente Norme
internationale peuvent comporter des risques si aucune précaution n’est prise. La présente
Norme internationale n’est pas censée aborder tous les problèmes de sécurité concernés par
son usage. Il est de la responsabilité de l’utilisateur de cette Norme internationale de consulter
et d’établir des règles de sécurité et d’hygiène appropriées et de déterminer l’applicabilité
des restrictions réglementaires avant l’utilisation. Il convient que les fluides acceptables
pour l’environnement ne présentent pas de risques significatifs pour la santé quand ils sont
utilisés correctement dans un système hydraulique, conformément aux recommandations de
manipulation du fournisseur.
1 Domaine d’application
La présente norme internationale spécifié les exigences relatives aux fluides hydrauliques acceptables
pour l’environnement. Elle s’applique aux systèmes hydrauliques, en particulier dans les applications
hydrostatiques. La présente Norme internationale a pour objet de procurer des indications aux
fournisseurs et utilisateurs de fluides acceptables pour l’environnement, et d’apporter des instructions
aux constructeurs de systèmes hydrauliques.
La présente Norme internationale spécifie les exigences applicables au moment de leur livraison aux
fluides hydrauliques acceptables pour l’environnement.
La classification des fluides utilisés dans les applications hydrauliques est définie dans l’ISO 6743-4.
La présente Norme internationale traite seulement quatre catégories de celles concernant les fluides
acceptables pour l’environnement, couverts par l’ISO 6743-4. Ces catégories sont les suivantes: HETG,
HEPG, HEES et HEPR. La teneur minimale en fluide de base pour chaque catégorie ne doit pas être
inférieure à 70 % (m/m).
2 Références normatives
Les documents de référence suivants, en totalité ou en partie, sont référencés normativement dans ce
document et sont indispensables pour son application. Pour les références datées, seule l’édition citée
s’applique. Pour les références non datées, la dernière édition du document de référence s’applique (y
compris les éventuels amendements).
ISO 2049, Produits pétroliers — Détermination de la couleur (échelle ASTM)
ISO 2160, Produits pétroliers — Action corrosive sur le cuivre — Essai à la lame de cuivre
ISO 2592, Détermination des points d’éclair et de feu — Méthode Cleveland en vase ouvert
ISO 3016, Produits pétroliers — Détermination du point d’écoulement
ISO 3104, Produits pétroliers — Liquides opaques et transparents — Détermination de la viscosité
cinématique et calcul de la viscosité dynamique
ISO 3170, Produits pétroliers liquides — Échantillonnage manuel
ISO 3448, Lubrifiants liquides industriels — Classification ISO selon la viscosité
ISO 3675, Pétrole brut et produits pétroliers liquides — Détermination en laboratoire de la masse
volumique — Méthode à l’aréomètre
ISO 4259, Produits pétroliers — Détermination et application des valeurs de fidélité relatives aux
méthodes d’essai
ISO 4263-1, Pétrole et produits connexes — Détermination du comportement au vieillissement des fluides
et huiles inhibées — Essai TOST — Partie 1: Méthode pour les huiles minérales
ISO 4263-3, Pétrole et produits connexes — Détermination du comportement au vieillissement des fluides
et huiles inhibés au moyen de l’essai TOST — Partie 3: Méthode anhydre pour les fluides hydrauliques
synthétiques
ISO 4406, Transmissions hydrauliques — Fluides — Méthode de codification du niveau de pollution
particulaire solide
ISO 6072, Caoutchouc — Compatibilité des fluides hydrauliques avec les matériaux élastomères de référence
ISO 6245, Produits pétroliers — Détermination de la teneur en cendres
ISO 6247, Produits pétroliers — Détermination des caractéristiques de moussage des huiles lubrifiantes
ISO 6296, Produits pétroliers — Dosage de l’eau — Méthode de titrage Karl Fischer par potentiométrie
ISO 6341, Qualité de l’eau — Détermination de l’inhibition de la mobilité de Daphnia magna Straus
(Cladocera, Crustacea) — Essai de toxicité aiguë
ISO 6614, Produits pétroliers — Détermination des caractéristiques de séparation d’eau des huiles de
pétrole et fluides synthétiques
ISO 6618, Produits pétroliers et lubrifiants — Détermination de l’indice d’acide ou de l’indice de base —
Méthode par titrage en présence d’un indicateur coloré
ISO 6619, Produits pétroliers et lubrifiants — Indice de neutralisation — Méthode par titrage
potentiométrique
ISO 6743-4, Lubrifiants, huiles industrielles et produits connexes (classe L) — Classification — Partie 4:
Famille H (Systèmes hydrauliques)
ISO 7120, Produits pétroliers et lubrifiants — Huiles de pétrole et autres fluides — Détermination des
caractéristiques antirouille en présence d’eau
ISO 7346-2, Qualité de l’eau — Détermination de la toxicité aiguë létale de substances vis-à-vis d’un poisson
d’eau douce [Brachydanio rerio Hamilton-Buchanan (Téléostei, Cyprinidae)] — Partie 2: Méthode semi-
statique
ISO 8192, Qualité de l’eau — Essai d’inhibition de la consommation d’oxygène par des boues activées pour
l’oxydation du carbone et de l’ammonium
ISO 9120, Pétroles et produits connexes — Détermination de l’aptitude à la désaération des huiles pour
turbine à vapeur et autres huiles — Méthode Impinger
ISO 9439, Qualité de l’eau — Évaluation de la biodégradabilité aérobie ultime en milieu aqueux des
composés organiques — Essai de dégagement de dioxyde de carbone
ISO 10634, Qualité de l’eau — Lignes directrices pour la préparation et le traitement des composés
organiques peu solubles dans l’eau en vue de l’évaluation de leur biodégradabilité en milieu aqueux
ISO 11500, Transmissions hydrauliques — Détermination du niveau de pollution particulaire d’un
échantillon liquide par comptage automatique des particules par absorption de lumière
ISO 12185, Pétroles bruts et produits pétroliers — Détermination de la masse volumique — Méthode du
tube en U oscillant
2 © ISO 2016 – Tous droits réservés

ISO 12937, Produits pétroliers — Dosage de l’eau — Méthode de titrage Karl Fischer par coulométrie
ISO 14593, Qualité de l’eau — Évaluation en milieu aqueux de la biodégradabilité aérobie ultime des
composés organiques — Méthode par analyse du carbone inorganique dans des récipients hermétiquement
clos (Essai au CO dans l’espace de tête)
ISO 14635-1, Engrenages — Méthodes d’essai FZG — Partie 1: Méthode FZG A/8,3/90 pour évaluer la
capacité de charge au grippage des huiles
ISO/IEC 17025, Exigences générales concernant la compétence des laboratoires d’étalonnages et d’essais
ISO 20763, Pétrole et produits connexes — Détermination des propriétés anti-usure des fluides
hydrauliques — Méthode de la pompe à palettes
DIN 51554-3, Essais des huiles minérales — Essai de vieillissement d’après la méthode Baader — Essai à 95 °C
ASTM D2532-93, Standard test method for viscosity and viscosity change after standing at low temperature
of aircraft turbine lubricants. (Méthode d’essai de la viscosité et de l’évolution de la viscosité après stockage
à basse température des lubrifiants pour turbines aviation)
3 Échantillonnage
Dans le cadre de la présente norme internationale, l’échantillonnage des fluides hydrauliques doit être
réalisé conformément au mode opératoire spécifié dans l’ISO 3170. Il convient qu’une prise d’essai
représentative de l’échantillon soit évaluée.
L’acheteur peut échantillonner et analyser, à son gré, tout tonnelet, fût, compartiment de citerne ou
autre type de récipient livré à l’utilisateur final.
4 Exigences applicables aux fluides hydrauliques acceptables pour
l’environnement
Pour les besoins de la présente norme internationale, les fluides hydrauliques doivent être constitués
de triglycérides, de polyglycols, d’esters synthétiques ou de polyalphaoléfines et d’hydrocarbures du
même type. La classification de ces huiles hydrauliques doit être en conformité avec l’ISO 6743-4 pour
les catégories HETG, HEPG, HEES et HEPR. La teneur minimale en fluide de base pour chaque catégorie
ne doit pas être inférieure à 70 % (m/m).
Il convient que la classification du fluide corresponde au constituant majoritaire de la base.
Lorsqu’ils sont analysés selon les méthodes spécifiées, les caractéristiques des fluides doivent se situer
dans les limites données dans les Tableaux 1 à 5, lorsque ceux-ci sont applicables.
Quand il est examiné sous la lumière visible normale à température ambiante, le fluide livré doit être
d’aspect clair et limpide et exempt de toute particule solide visible. Le niveau de propreté doit être
exprimé conformément aux ISO 4406 et ISO 11500.
La fidélité (répétabilité et reproductibilité) des méthodes d’essai de cette norme internationale et
l’interprétation des résultats doivent être conformes à l’ISO 4259 qui doit être consultée en cas de doute
ou de contestation.
Les spécifications de comportement environnemental concernant les catégories HETG, HEPG, HEES et
HEPR sont indiquées dans le Tableau 1.
Tableau 1 — Exigences sur le comportement environnemental pour les catégories HETG, HEPG,
HEES et HEPR
Méthode d’essai
Propriété de l’essais Unités Exigences ou
Norme applicable
Biodégradabilité, 28 jours, min. % 60 ISO 14593 ou ISO 9439
a
Toxicité
Toxicité aiguë envers les poissons, 96 h, LC50, min. mg/l 100 ISO 7346-2
Toxicité aiguë envers les daphnies, 48 h, EC50, min. mg/l 100 ISO 6341
Inhibition bactérienne, 3 h, EC50, min. mg/l 100 ISO 8192
NOTE  Il est recommandé d’effectuer les essais de biodégradabilité et de toxicité aquatique selon les recommandations des
«Bonnes Pratiques de Laboratoire» (BPL).
a
Les fluides solubles dans l’eau doivent être soumis à l’essai stipulé. Pour les fluides à faible solubilité dans l’eau, l’essai
doit être effectué sur des fractions rendues compatibles avec l’eau, préparées conformément à l’ISO 10634.
Les essais de biodégradabilité et de toxicité aquatique doivent être réalisés dans un laboratoire opérant
selon l’ISO/IEC 17025 ou pour les Bonnes Pratiques de Laboratoire (GLP).
Toutes les autres spécifications applicables à chaque catégorie de fluide mentionné dans la présente
Norme internationale sont données dans les Tableaux 2 à 5 respectivement, comme indiqué ci-dessous:
Tableau 2: Catégorie HETG;
Tableau 3: Catégorie HEPG;
Tableau 4: Catégorie HEES;
Tableau 5: Catégorie HEPR;
Toutes les catégories inscrites ci-dessus appartiennent à celle des lubrifiants, des huiles industrielles et
des produits liés de Groupe HE, c’est-à-dire des fluides hydrauliques acceptables pour l’environnement,
qui sont généralement utilisés dans des systèmes hydrauliques généraux. La composition de chaque
catégorie est spécifiée dans le titre des tableaux. Ces éléments sont tirés de l’ISO 6743-4.
Tableau 2 — Spécifications applicables aux fluides hydrauliques du type HETG, triglycérides
Méthode d’es-
Essais Unités Exigences sai ou Norme
applicable
Grade de viscosité 22 32 46 68 ISO 3448
ISO 12185
3 a a a a
Masse volumique à 15 °C kg/m — — — —
ISO 3675
b a a a a
Couleur — — — — — ISO 2049
c c c c
Aspect à 25 °C — ClLi ClLi ClLi ClLi
d d d d
Teneur en cendres, max. % (m/m) — — — — ISO 6245
Point d’éclair
Cleveland en vase ouvert, min. °C 165 175 185 195 ISO 2592
Viscosité cinématique
2 d d d d
à −20 °C, max. mm /s — — — —
à 0 °C, max. mm /s 300 420 780 1 400 ISO 3104
à 40 °C, min. à max. mm /s 19,8 à 24,2 28,8 à 35,2 41,4 à 50,6 61,2 à 74,8
à 100 °C, min. mm /s 4,1 5,0 6,1 7,8
d d d d
Point d’écoulement, max. °C — — — — ISO 3016
Fluidité à basse température
d d d d
°C — — — — ASTM D 2532
après 7 jours
4 © ISO 2016 – Tous droits réservés

Tableau 2 (suite)
Méthode d’es-
Essais Unités Exigences sai ou Norme
applicable
Grade de viscosité 22 32 46 68 ISO 3448
mg ISO 6618
e d d d d
Indice d’acide , max. — — — —
KOH/g ISO 6619
ISO 12937
Teneur en eau mg/kg 1 000 1 000 1 000 1 000
ISO 6296
ISO 4406
d d d d d
Niveau de propreté, max. — — — —
ISO 11500
Corrosion à la lame de cuivre,
cotation 2 2 2 2 ISO 2160
100 °C 3 h, max.
Pouvoir antirouille, méthode A, 24h — Passe Passe Passe Passe ISO 7120
Moussage
à 24 °C, max. (Séquence I) ml 150/0 150/0 150/0 150/0
ISO 6247
à 93 °C, max. (Séquence II) ml 80/0 80/0 80/0 80/0
à 24 °C, max. (Séquence III) ml 150/0 150/0 150/0 150/0
Désaération, 50 °C, max. min 7 7 10 10 ISO 9120
Désémulsion
Temps nécessaire pour 3 ml
d d d d
min — — — — ISO 6614
d’émulsion à 54 °C, max.
f
Compatibilité avec les élastomères
après 1 000 h à température
d’essai donnée
NBR 1 °C 60 80 80 80
HNBR °C 60 80 80 80
FKM 2 °C 60 80 80 80
ISO 6072
g
AU °C 60 80 80 80
Variation de dureté Shore-A, max. grade ±10 ±10 ±10 ±10
Variation relative de volume, max. % −3 à +10 −3 à +10 −3 à +10 −3 à +10
Variation relative de longueur, max. % 30 30 30 30
Variation relative de résistance à
% 30 30 30 30
la traction, max.
Stabilité à l’oxydation:
Temps pour atteindre ΔTAN = 2 mg
h ad ad ad ad
— — — —
KOH/g, min.
ISO 4263-3
DIN 51554-3
Test de Baader, 95 °C, 72 h
Accroissement relatif de viscosité
% 20 20 20 20
à 40 °C, max.
Propriétés extrême pression,
h
palier — 10 10 10 ISO 14635-1
FZG A/8,3/90, min.
Tableau 2 (suite)
Méthode d’es-
Essais Unités Exigences sai ou Norme
applicable
Grade de viscosité 22 32 46 68 ISO 3448
i
Pompe à palette, Procédure A
Anneau, max. mg 120 120 120 120 ISO 20763
Palette, max. mg 30 30 30 30
a
Noter le résultat de l’essai.
b
A des fins d’identification, un colorant peut être ajouté au fluide après accord entre le fournisseur et l’uti-
lisateur.
c
ClLi est l’abréviation de «clair et limpide».
d
Critères de performance ou valeurs des caractéristiques devant faire l’objet d’une négociation entre le four-
nisseur et l’acheteur.
e
L’indice d’acide initial est apporté à la fois par les fluides de base et les additifs.
f
Les exigences pour deux des types d’élastomères listés doivent être satisfaites. Les valeurs sont les exigences
minimales pour des élastomères de référence. Les élastomères conviennent pour le conseil et la sélection
des matériaux d’étanchéité appropriés. D’autres matériaux et/ou conditions d’essai peuvent faire l’objet d’un
accord entre le fournisseur et l’utilisateur final. Il est recommandé de considérer l’applicabilité au comporte-
ment de l’élastomère utilisé en pratique.
g
Il n’existe pas d’élastomère de catégorie AU stable à l’hydrolyse. Des fabricants produisent des matériaux AU
stabilisés pour des applications pratiques. Il est recommandé aux utilisateurs de demander toutes explications
à ce sujet au fabricant d’élastomère.
h
Non applicable au Grade de viscosité 22.
i
Il n’y a actuellement aucune donnée de fidélité pour la méthode quand des cartouches d’essai qui ne sont pas
Eaton/Vickers (par exemple Conestoga États-Unis, Inc. et Tokimec) sont utilisées. Par conséquent, aucune
limite absolue de perte en masse ne peut être stipulée jusqu’à ce que la fidélité des cartouches de pompe de
V104C du nouveau fournisseur ait été déterminée. En attendant, les limites précédemment établies pour des
cartouches Eaton/Vickers peuvent être utilisées en guise de jalon. Il convient de noter que l’ISO 20763 remplace
la BS 2000:Partie 281, l’IP 281 et la DIN 51389. Pour des fluides évalués selon les méthodes mentionnées ci-des-
sus, on considère les données d’essai rester valable et aucun essai supplémentaire selon l’ISO 20763 n’est exigé.
Tableau 3 — Spécifications applicables aux fluides hydrauliques du type HEPG, polyglycols
Méthode d’es-
Essais Unités Exigences sai ou Norme
applicable
Grade de viscosité 22 32 46 68 ISO 3448
ISO 12185
3 a a a a
Masse volumique à 15 °C kg/m — — — —
ISO 3675
b a a a a
Couleur — — — — — ISO 2049
c c c c
Aspect à 25 °C — ClLi ClLi ClLi ClLi
d d d d
Teneur en cendr
...

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La norme ISO 15380:2016 fournit des spécifications détaillées pour les fluides hydrauliques acceptables sur le plan environnemental, s'inscrivant dans la catégorie L (produits et huiles industriels). Cette norme est particulièrement pertinente pour les systèmes hydrauliques et les systèmes de puissance hydraulique, offrant des exigences précises pour garantir que les fluides utilisés dans ces systèmes minimisent leur impact environnemental. L'une des forces majeures de cette norme est qu'elle offre des directives claires tant pour les fournisseurs que pour les utilisateurs de fluides hydrauliques respectueux de l'environnement, ainsi que pour les fabricants d'équipements d'origine. Cela concerne particulièrement les fluides classés dans les catégories HETG, HEPG, HEES et HEPR, qui sont définies par la norme ISO 6743-4. L'ISO 15380:2016 met en lumière l'importance d'un contenu de fluide de base d'au moins 70 % (m/m) pour chaque catégorie, garantissant ainsi un certain niveau de performance tout en respectant les normes environnementales. Cette norme se démarque par sa capacité à cibler spécifiquement des fluides adaptés aux exigences modernes de durabilité et de responsabilité environnementale, tout en fournissant une base solide pour l'harmonisation des processus et la standardisation des produits sur le marché. En résumé, l'ISO 15380:2016 est essentielle pour les acteurs de l'industrie cherchant à adopter des pratiques plus durables dans l'utilisation des fluides hydrauliques.

ISO 15380:2016 provides a comprehensive framework aimed at ensuring the use of environmentally acceptable hydraulic fluids in hydraulic systems, specifically focusing on hydraulic fluid power systems. The standard is critical for suppliers, users, and original equipment manufacturers (OEMs) as it delineates the specifications for four specific categories of hydraulic fluids: HETG, HEPG, HEES, and HEPR. One of the primary strengths of ISO 15380:2016 lies in its emphasis on environmental sustainability. By mandating the use of fluids with a minimum base fluid content of 70% (m/m), the standard encourages the development and application of hydraulic fluids that mitigate environmental impact, thus aligning industry practices with global sustainability goals. The classification of fluids according to ISO 6743-4 further enhances its relevance by providing a clear categorization that assists stakeholders in selecting appropriate fluids for their specific applications. Additionally, the guidance offered by ISO 15380:2016 is vital for maintaining the operational integrity of hydraulic systems. The specifications set forth in the document ensure that the hydraulic fluids meet necessary performance criteria while also being environmentally friendly. This dual focus on operational efficacy and environmental stewardship makes the standard highly relevant in today’s industry landscape, where sustainability is increasingly prioritized. Furthermore, the standard's clear delineation of requirements facilitates effective communication among suppliers, users, and OEMs, promoting a common understanding of what constitutes acceptable hydraulic fluids. This can lead to improved collaboration and innovation within the sector as stakeholders work towards common goals. Overall, ISO 15380:2016 serves as an essential resource that balances the need for high-performance hydraulic systems with the imperative of environmental responsibility, making it a cornerstone document in the realm of hydraulic fluid specifications.

Die ISO 15380:2016 legt die Anforderungen für umweltverträgliche hydraulische Flüssigkeiten fest und ist insbesondere für hydraulische Systeme, insbesondere hydraulische Antriebssysteme, gedacht. Das Dokument bietet eine umfassende Anleitung für Anbieter und Benutzer umweltfreundlicher hydraulischer Flüssigkeiten sowie für die Originalgerätehersteller von hydraulischen Systemen. Die Standardisierung strebt an, die Anforderungen an die umweltverträglichen hydraulischen Flüssigkeiten bereits zum Zeitpunkt der Lieferung zu definieren. Die Stärken der ISO 15380:2016 liegen in ihrer klaren und präzisen Spezifikation der vier Kategorien von umweltverträglichen Flüssigkeiten: HETG, HEPG, HEES und HEPR, die im Rahmen der ISO 6743-4 klassifiziert sind. Mit einem Mindestgehalt von Basisflüssigkeit von 70 % (m/m) für jede Kategorie gewährleistet der Standard, dass die Qualität und Umweltverträglichkeit der verwendeten Flüssigkeiten konstant hoch ist. Diese Spezifikationen sind besonders relevant in einer Zeit, in der die Nachhaltigkeit und der Schutz der Umwelt zunehmend an Bedeutung gewinnen. Die Relevanz von ISO 15380:2016 ist besonders ausgeprägt im Hinblick auf die Anforderungen der Industrie an umweltfreundliche Lösungen. Sie positioniert sich als ein entscheidendes Dokument für Hersteller und Anwender von hydraulischen Systemen, die neben der Effizienz auch die Umwelteinflüsse ihrer Produkte berücksichtigen müssen. Die Norm unterstützt somit nicht nur die Einhaltung von Umweltschutzstandards, sondern fördert auch innovative Ansätze zur Entwicklung umweltverträglicher hydraulischer Lösungen.

ISO 15380:2016 표준은 환경적으로 수용 가능한 유압유의 요구사항을 규정하고 있으며, 특히 유압 유압 시스템을 위한 기준을 제공합니다. 이 표준의 범위는 HETG, HEPG, HEES 및 HEPR 카테고리의 유압 유체에 대한 사양을 포함하여, 환경친화적인 유압유의 공급자와 사용자에게 지침을 제공하는 데 중점을 두고 있습니다. 이로 인해 ISO 15380:2016은 유압 시스템을 제조하는 장비 업체에게도 중요한 방향성을 제시합니다. 이 표준의 강점 중 하나는 유압 어플리케이션에서 사용되는 유체의 분류를 ISO 6743‑4에 정의하고 있는 것입니다. ISO 15380:2016은 총 네 가지 카테고리의 유압유에 대해서만 다루고 있으며, 이는 HETG, HEPG, HEES 및 HEPR로 구분됩니다. 이러한 명확한 카테고리는 사용자가 적합한 유압유를 선택하는 데 있어 큰 도움이 됩니다. 또한, ISO 15380:2016은 각 카테고리에 대해 최소 70 % (m/m)의 기초 유체 함량을 규정하여, 유체의 품질을 유지하고 환경에 미치는 영향을 줄이도록 하고 있습니다. 이는 산업 활동에서 지속 가능한 발전을 도모하는 데 기여하며, 환경적인 수용 가능성을 우선시하는 유압유의 사용을 촉진하는 요소입니다. 결론적으로, ISO 15380:2016 표준은 유압 시스템에 대한 환경적으로 수용 가능한 유압유의 사양을 명확히 하고 있으며, 이는 공급자, 사용자, 제조업체 모두에게 강력한 기준으로 작용합니다. 이 표준의 적용을 통해 환경 보호와 산업 효율성을 동시에 달성할 수 있다는 점에서 그 중요성은 더욱 부각됩니다.

ISO 15380:2016は、環境に配慮した油圧液の要件を定めており、特に油圧流体動力システムにおいて重要な役割を果たします。この国際標準は、環境に優しい油圧液を提供するための指針を供給者とユーザーに示すものであり、油圧システムの元供給装置メーカーにも方向性を提供します。 この標準の強みは、油圧アプリケーションに使用される流体の明確な分類を行っている点です。ISO 6743-4に基づき、HETG、HEPG、HEES、HEPRの4つのカテゴリーの環境に優しい流体に焦点を当てています。この分類により、使用者はニーズに応じた適切な油圧液を選ぶことができます。 さらに、ISO 15380:2016では、各カテゴリーにおいて基油の最小含有率を70%(m/m)以上と定めていることも特筆すべき点です。これにより、環境に優しい油圧液の品質が確保され、持続可能な開発に寄与することが期待されます。 この標準は、環境への負荷を軽減することが求められる今日において、油圧システムの選定および評価において非常に重要であり、その適用範囲は広がっています。ISO 15380:2016の要件を遵守することは、企業の社会的責任の一環としても認識されつつあります。

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ISO
ISO 6521-3:2019(Main)
Lubricants, industrial oils and related products (Class L) - Family D (compressors) - Part 3: Specifications of categories DRA, DRB, DRC, DRD, DRE, DRF and DRG (lubricants for refrigerating compressors)

This document specifies the minimum requirements for mineral or synthetic based lubricants intended for use in all types of refrigerating compressors. NOTE This document can be read in conjunction with ISO 6743-3.

  • Standard
    13 pages
    English language
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  • Standard
    14 pages
    French language
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ISO
ISO 6521-1:2019(Main)
Lubricants, industrial oils and related products (Class L) - Family D (compressors) - Part 1: Specifications of categories DAA and DAB (lubricants for reciprocating and drip feed rotary air compressors)

This document specifies the minimum requirements for mineral or synthetic based lubricants intended for use in reciprocating and drip feed rotary air compressors (vane compressors) with the compression chamber(s)/cylinders lubricated by direct lubricant injection. NOTE This document can be read in conjunction with ISO 6743-3[1].

  • Standard
    6 pages
    English language
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  • Standard
    6 pages
    French language
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