ISO 11296-4:2009

INTERNATIONAL ISO
STANDARD 11296-4
First edition
2009-11-01
Corrected version
2010-06-01


Plastics piping systems for renovation
of underground non-pressure drainage
and sewerage networks —
Part 4:
Lining with cured-in-place pipes
Systèmes de canalisations en matières plastiques pour la rénovation
des réseaux d'assainissement gravitaires enterrés —
Partie 4: Tubage continu par tubes polymérisés sur place





Reference number
ISO 11296-4:2009(E)
©
ISO 2009

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ISO 11296-4:2009(E)
PDF disclaimer
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shall not be edited unless the typefaces which are embedded are licensed to and installed on the computer performing the editing. In
downloading this file, parties accept therein the responsibility of not infringing Adobe's licensing policy. The ISO Central Secretariat
accepts no liability in this area.
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Details of the software products used to create this PDF file can be found in the General Info relative to the file; the PDF-creation
parameters were optimized for printing. Every care has been taken to ensure that the file is suitable for use by ISO member bodies. In
the unlikely event that a problem relating to it is found, please inform the Central Secretariat at the address given below.


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©  ISO 2009
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by any means,
electronic or mechanical, including photocopying and microfilm, without permission in writing from either ISO at the address below or
ISO's member body in the country of the requester.
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Published in Switzerland

ii © ISO 2009 – All rights reserved

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ISO 11296-4:2009(E)
Contents Page
Foreword .v
Introduction.vi
1 Scope.1
2 Normative references.1
3 Terms and definitions .2
3.1 General terms .2
3.2 Techniques.3
4 Symbols and abbreviated terms .4
4.1 Symbols.4
4.2 Abbreviated terms .5
5 Pipes at the “M” stage .5
5.1 Materials .6
5.2 General characteristics.7
5.3 Material characteristics.7
5.4 Geometric characteristics .8
5.5 Mechanical characteristics.8
5.6 Physical characteristics.8
5.7 Jointing.8
5.8 Marking.8
6 Fittings at the “M” stage.8
6.1 Materials .8
6.2 General characteristics.9
6.3 Material characteristics.9
6.4 Geometric characteristics .9
6.5 Mechanical characteristics.10
6.6 Physical characteristics.10
6.7 Jointing.10
6.8 Marking.10
7 Ancillary components.10
8 Fitness for purpose of the installed lining system at the “I” stage .10
8.1 Materials .10
8.2 General characteristics.10
8.3 Material characteristics.11
8.4 Geometric characteristics .11
8.5 Mechanical characteristics.11
8.6 Physical characteristics.13
8.7 Additional characteristics.13
8.8 Sampling.13
9 Installation practice.14
9.1 Preparatory work .14
9.2 Storage, handling and transport of pipe components .14
9.3 Equipment .14
9.4 Installation.15
9.5 Process-related inspection and testing .16
9.6 Lining termination .16
9.7 Reconnecting to existing manholes and laterals.16
9.8 Final inspection and testing.16
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ISO 11296-4:2009(E)
9.9 Documentation.16
Annex A (informative) CIPP components and their functions.17
Annex B (normative) Cured-in-place pipes — Modifications to ISO 178 for flexural testing.18
Annex C (normative) Cured-in-place pipes — Test method for the determination of long-term
flexural modulus under wet conditions.25
Annex D (normative) Cured-in-place pipes — Determination of the creep factor under dry
conditions from a three-point flexural test .29
Bibliography .32

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ISO 11296-4:2009(E)
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.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International Standards
adopted by the technical committees are circulated to the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
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.
ISO 11296-4 was prepared by Technical Committee ISO/TC 138, Plastics pipes, fittings and valves for the
transport of fluids.
ISO 11296 consists of the following parts, under the general title Plastics piping systems for renovation of
underground non-pressure drainage and sewerage networks:
⎯ Part 1: General
⎯ Part 3: Lining with close-fit pipes
⎯ Part 4: Lining with cured-in-place pipes
Lining with continuous pipes is to form the subject of a part 2, lining with discrete pipes is to form the subject
of a part 5 and lining with spirally-wound pipes is to form the subject of a part 7.
This corrected version of ISO 11296-4:2009 incorporates the replacement of “ISO 178” with “ISO 178 as
modified by Annex B” in the fourth row and fifth column of Table 5.
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ISO 11296-4:2009(E)
Introduction
The System Standard, of which this is part 4, specifies the requirements for plastics piping systems of various
materials used for renovation of existing pipelines in a specified application area. System Standards for
renovation specify procedures for the following applications:
⎯ plastics piping systems for renovation of underground non-pressure drainage and sewerage networks;
⎯ plastics piping systems for renovation of underground drainage and sewerage networks under pressure;
⎯ plastics piping systems for renovation of underground water supply networks;
⎯ plastics piping systems for renovation of underground gas supply networks.
These System Standards are distinguished from those for conventionally installed plastics piping systems
because they set requirements for certain characteristics in the as-installed condition, after site processing.
This is in addition to specifying requirements for plastics piping system components, as manufactured.
Each of the System Standards comprises a part 1 (general) and all applicable renovation technique family-
related parts from the following:
⎯ part 2: lining with continuous pipes;
⎯ part 3: lining with close-fit pipes;
⎯ part 4: lining with cured-in-place pipes;
⎯ part 5: lining with discrete pipes;
⎯ part 7: lining with spirally-wound pipes.
The requirements for any given renovation technique family are given in part 1, applied in conjunction with the
other relevant part. For example, parts 1 and 2 specify the requirements relating to lining with continuous
pipes. For complementary information, see ISO 11295. Not all technique families are applicable to every area
of application and this is reflected in the part numbers included in each System Standard.
A consistent structure of clause headings has been adopted for all parts to facilitate direct comparisons across
renovation technique families.
Figure 1 gives the common structure and the relationship between ISO 11296 and the System Standards for
other application areas.
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ISO 11296-4:2009(E)

Figure 1 — Format of the renovation System Standards

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INTERNATIONAL STANDARD ISO 11296-4:2009(E)

Plastics piping systems for renovation of underground
non-pressure drainage and sewerage networks —
Part 4:
Lining with cured-in-place pipes
1 Scope
This part of ISO 11296, in conjunction with ISO 11296-1, specifies requirements and test methods for cured-
in-place pipes and fittings used for the renovation of underground non-pressure drainage and sewerage
networks.
It applies to the use of various thermosetting resin systems, in combination with compatible fibrous carrier
materials and other process-related plastics components (see 5.1).
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
ISO 75-2, Plastics — Determination of temperature of deflection under load — Part 2: Plastics and ebonite
ISO 178:2001, Plastics — Determination of flexural properties
ISO 527-2, Plastics — Determination of tensile properties — Part 2: Test conditions for moulding and
extrusion plastics
ISO 899-2:2003, Plastics — Determination of creep behaviour — Part 2: Flexural creep by three-point loading
ISO 3126, Plastics piping systems — Plastics components — Determination of dimensions
ISO 4435, Plastics piping systems for non-pressure underground drainage and sewerage — Unplasticized
poly(vinyl chloride) (PVC-U)
ISO 7684, Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Determination of
the creep factor under dry conditions
ISO 7685, Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Determination of
initial specific ring stiffness
ISO 8513, Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Determination of
longitudinal tensile properties
ISO 8773, Plastics piping systems for non-pressure underground drainage and sewerage — Polypropylene
(PP)
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ISO 11296-4:2009(E)
1)
ISO 10928 , Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes and fittings —
Methods for regression analysis and their use
ISO 10952, Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes and fittings —
Determination of the resistance to chemical attack for the inside of a section in a deflected condition
2)
ISO 11296-1:— , Plastics piping systems for renovation of underground non-pressure drainage and
sewerage networks — Part 1: General
ISO 13002, Carbon fibre — Designation system for filament yarns
3)
ISO 25780:— , Plastics piping systems for pressure and non-pressure water supply, irrigation, drainage or
sewerage — Glass-reinforced thermosetting plastics (GRP) systems based on unsaturated polyester (UP)
resin — Pipes with flexible joints intended to be installed using jacking techniques
EN 14364:2006, Plastics piping systems for drainage and sewerage with or without pressure — Glass-
reinforced thermosetting plastics (GRP) based on unsaturated polyester resin (UP) — Specifications for pipes,
fittings and joints
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 11296-1 and the following apply.
3.1 General terms
3.1.1
carrier material
porous component of the liner, which carries the liquid resin system during insertion into the pipe being
renovated and forms part of the installed lining system once the resin has been cured
3.1.2
CIPP product
cured-in-place pipe product
cured-in-place pipe of a particular design, produced from a liner of specified materials, with a wall structure
which is uniquely defined for each diameter/wall thickness combination, and which is impregnated with a
specific resin system and installed by a specific process
3.1.3
CIPP unit
specific cured-in-place pipe produced from a continuous liner, which has been impregnated in one process
and installed as a single length
3.1.4
close-fit
situation of the outside of the installed liner relative to the inside of the existing pipeline, which may either be
an interference fit or include a small annular gap resulting from shrinkage and tolerances only
3.1.5
composite
combination of cured resin system, carrier material and/or reinforcement, excluding any internal or external
membranes or any layer of excess neat resin

1) To be published.
2) To be published.
3) To be published.
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ISO 11296-4:2009(E)
3.1.6
first break
elastic limit or first major discontinuity of the stress-strain curve associated with local failure of the resin matrix
or reinforcing fibres
3.1.7
curing
process of resin polymerization, which may be initiated or accelerated by the use of heat or exposure to light
3.1.8
design thickness
required wall thickness of the composite, as determined by structural design
3.1.9
internal membrane
membrane forming the inside surface of the pipe after installation
3.1.10
external membrane
membrane forming the outside surface of the pipe after installation
3.1.11
lateral connection collar
fitting for reconnecting a lined main pipe to an existing or renovated lateral pipe
3.1.12
lining tube
flexible tube, consisting of carrier material, resin system and any membranes and/or reinforcement, as
combined prior to insertion in the pipe to be lined
3.1.13
nominal thickness
one of a range of discrete liner wall thicknesses dictated by the materials used for liner construction and
chosen so as to result in a finished wall thickness of the composite not less than the design thickness
3.1.14
preliner
external membrane which is installed separately and before the resin-impregnated liner
3.1.15
reinforcement
fibres incorporated in the liner, which enhance the dimensional stability of the liner and/or the structural
properties of the cured composite
NOTE The reinforcement can be incorporated in the carrier material, constitute the carrier material, or can be a
separate layer.
3.1.16
resin system
thermosetting resin including the curing agent(s) and any fillers or other additives, in specified proportions
3.2 Techniques
3.2.1
inversion
process of turning a flexible tube or hose inside out by the use of fluid (water or air) pressure
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ISO 11296-4:2009(E)
3.2.2
inverted-in-place insertion
method whereby the impregnated liner is introduced by inversion to achieve simultaneous insertion and
inflation
3.2.3
winched-in-place insertion
method whereby the flat impregnated liner is first pulled into the pipe to be lined and then inflated to bring it up
to size
NOTE Inflation can be achieved by means of a separate pressurized tube or hose inside the liner which is either
withdrawn after resin cure or left in place as a permanent internal membrane.
3.2.4
temporary membrane
internal membrane, used to separate process fluid (typically water or air) from the resin system during liner
insertion, which is withdrawn after resin cure
4 Symbols and abbreviated terms
The symbols and abbreviated terms given in ISO 11296-1 and the following apply.
4.1 Symbols
b width of test piece
E short-term flexural modulus
0
E long-term flexural modulus at x years
x
E flexural creep modulus at time t
t
F force applied in flexural test
h thickness of test piece
h mean thickness of test piece
m
I moment of inertia (the second moment of area) per unit length of the pipe wall
L distance between supports in flexural test
L distance between points of contact of curved flexural test piece with supports
1
L true span of curved flexural test piece
2
r radius of support
R radius of curvature of test piece at mid-thickness
2
V rise of centre of curved flexural test piece above its points of contact with supports
S initial specific ring stiffness
0
δ deflection of flexural test piece at time t
t
α dry creep factor at x years
x, dry
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ISO 11296-4:2009(E)
ε initial flexural strain at zero stress

f0
ε flexural strain at first break

fb
ε flexural strain at maximum applied load

fM
σ required flexural stress in creep test

0
σ flexural stress at first break

fb
σ flexural stress at maximum applied load

fM
σ ultimate longitudinal tensile stress

l
4.2 Abbreviated terms
CIPP Cured-in-place pipe
EP Epoxy resin
GRP Glass-reinforced thermosetting plastics
PA Polyamide
PAN Polyacrylonitrile
PE Polyethylene
PEN Poly(ethylene naphthate)
PET Poly(ethylene terephthalate)
PP Polypropylene
PUR Polyurethane
PVC-U Unplasticized poly(vinyl chloride)
UP Unsaturated polyester resin
VE Vinyl ester resin
5 Pipes at the “M” stage
NOTE This clause specifies requirements for the lining tube (i.e. all components before resin cure). For requirements
for the cured composite, see Clause 8.
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ISO 11296-4:2009(E)
5.1 Materials
Lining tubes shall comprise at least the following components:
⎯ resin system;
⎯ carrier material.
In addition, they may optionally comprise:
⎯ reinforcement;
⎯ internal membrane or temporary membrane;
⎯ external membrane.
For the relationship between these components, see Figure 2.
NOTE 1 Various components can have end-product or purely process-related functions dependent on the specific
method used. The possible functions of components are given in Table A.1.
NOTE 2 The carrier material can itself have a reinforcing effect.

Key
1 internal or temporary membrane
2 composite (resin in carrier material/reinforcement)
3 external membrane
4 existing pipeline
Figure 2 — Typical wall construction of lining tube
Lining tube components shall comprise materials conforming to Table 1 and the material used for each
component shall be declared.
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ISO 11296-4:2009(E)
Table 1 — Classification of lining tube components by their material
Lining tube component Materials
Resin system:
⎯ resin type UP, VE or EP
⎯ filler type None, inorganic or organic
⎯ curing system Heat-initiated, light-initiated or ambient cure
Carrier material/reinforcement Polymeric fibres: PA, PAN, PEN, PET or PP
Glass fibres conforming to ISO 25780:—, 4.2.2
Carbon fibres of declared designation conforming to ISO 13002
a
Combinations of the above fibres
b
Membranes (internal, external or
Unrestricted
temporary)
a
Where a combination of fibres is used, the proportions by mass of each fibre type shall be declared to within 5 %.
b
As there are no requirements for membranes, there are also no restrictions on the choice of materials used for membranes.

5.2 General characteristics
Colouration may be used for resin mix and/or impregnation control.
5.3 Material characteristics
When tested in accordance with the methods given in Table 2, the resin system, cast singly without filler,
carrier material or reinforcement shall, after cure, conform to the material requirements specified in Table 2,
according to resin type.
Table 2 — Material characteristics of resin systems
Test parameter
Characteristic Requirement Test method
Parameter Value
Flexural stress at For UP and VE: W 100 MPa Speed of testing 2 mm/min ISO 178:2001
first break
For EP: W 80 MPa Number of test pieces 3
Dimensions of test piece:
thickness h 3 u h u 6 mm
width b (15 ± 0,5) mm
Tensile elongation For UP and VE: W 2 % Speed of testing 5 mm/min ISO 527-2
at break
For EP: W 2,5 % Number of test pieces 3
Test piece shape and initial Specimen type 1B
gauge length
Temperature of For UP and VE: W 85 °C Orientation of test piece Edgewise Method A of
deflection under ISO 75-2
For EP: W 70 °C Number of test pieces 3
load

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ISO 11296-4:2009(E)
5.4 Geometric characteristics
No geometric requirements apply at the “M” stage.
The perimeter of the lining tube should be dimensioned such that when installed, it forms a close fit to the
existing sewer wall or as otherwise required by the design. The manufactured length and thickness of the
lining tube should include allowances for any longitudinal and circumferential stretch during installation.
5.5 Mechanical characteristics
No mechanical requirements apply at the “M” stage.
5.6 Physical characteristics
No physical requirements apply.
5.7 Jointing
The lining tube after impregnation shall be provided in lengths such that no jointing is required between points
of access to the sewer.
5.8 Marking
The marking shall conform to ISO 11296-1:—, 5.8. It shall be applied to the outside of the lining tube as
delivered to the installation site or in the case of pre-packaged lining tubes, on the outside of the packaging.
As specified in ISO 11296-1:—, 5.8 c), the dimensions marked shall be the nominal outside diameter or in the
case of lining tubes to be installed in non-circular sewers, the diameter of the circle having the same outside
perimeter as the lining tube.
As specified in ISO 11296-1:—, 5.8 d), the dimension marked shall be the wall thickness.
As specified in ISO 11296-1:—, 5.8 f), the manufacturer's information shall enable identification of the lining
tube structure and (if pre-impregnated) the resin system used.
6 Fittings at the “M” stage
NOTE 1 This clause describes the various materials which a cured-in-place fitting conforming to this part of ISO 11296
can comprise, and specifies requirements relating to those materials and intermediate fabrications at the “M” stage.
NOTE 2 Since by definition a cured-in-place pipe is partly manufactured on site, requirements of the finished product
can only be verified at the “I” stage. For “I” stage requirements, see Clause 8.
NOTE 3 The only cured-in-place fittings covered by this part of ISO 11296 are lateral connections collars. Such collars
can be an integral part of a complete lining of a lateral pipe. External saddle connections between cured-in-place main
pipes and lateral pipes can also be made with standard thermoplastic or GRP fittings.
6.1 Materials
Lateral connection collars shall comprise cured-in-place components conforming to 5.1, but may also include
additional thermoplastic components of declared composition.
External saddles shall be of PP, PVC-U or GRP-UP, conforming to ISO 4435, ISO 8773 or EN 14364:2006,
6.5, as applicable.
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ISO 11296-4:2009(E)
6.2 General characteri
...

DRAFT INTERNATIONAL STANDARD ISO/DIS 11296-4
ISO/TC 138 Secretariat: JISC
Voting begins on: Voting terminates on:
2008-05-30 2008-10-30
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION • МЕЖДУНАРОДНАЯ ОРГАНИЗАЦИЯ ПО СТАНДАРТИЗАЦИИ • ORGANISATION INTERNATIONALE DE NORMALISATION
Plastics piping systems for renovation of underground
non-pressure drainage and sewerage networks —
Part 4:
Lining with cured-in-places pipes
Systèmes de canalisations en matières plastiques pour la rénovation des réseaux d'assainissement gravitaires
enterrés —
Partie 4: Tubage continu par tubes polymérisés sur place
ICS 23.040.20; 23.040.45; 91.140.80; 93.030

In accordance with the provisions of Council Resolution 15/1993 this document is circulated in
the English language only.
Conformément aux dispositions de la Résolution du Conseil 15/1993, ce document est distribué
en version anglaise seulement.
To expedite distribution, this document is circulated as received from the committee secretariat.
ISO Central Secretariat work of editing and text composition will be undertaken at publication
stage.
Pour accélérer la distribution, le présent document est distribué tel qu'il est parvenu du
secrétariat du comité. Le travail de rédaction et de composition de texte sera effectué au
Secrétariat central de l'ISO au stade de publication.
THIS DOCUMENT IS A DRAFT CIRCULATED FOR COMMENT AND APPROVAL. IT IS THEREFORE SUBJECT TO CHANGE AND MAY NOT BE
REFERRED TO AS AN INTERNATIONAL STANDARD UNTIL PUBLISHED AS SUCH.
IN ADDITION TO THEIR EVALUATION AS BEING ACCEPTABLE FOR INDUSTRIAL, TECHNOLOGICAL, COMMERCIAL AND USER PURPOSES, DRAFT
INTERNATIONAL STANDARDS MAY ON OCCASION HAVE TO BE CONSIDERED IN THE LIGHT OF THEIR POTENTIAL TO BECOME STANDARDS TO
WHICH REFERENCE MAY BE MADE IN NATIONAL REGULATIONS.
RECIPIENTS OF THIS DRAFT ARE INVITED TO SUBMIT, WITH THEIR COMMENTS, NOTIFICATION OF ANY RELEVANT PATENT RIGHTS OF WHICH
THEY ARE AWARE AND TO PROVIDE SUPPORTING DOCUMENTATION.
©
International Organization for Standardization, 2008

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ISO/DIS 11296-4
PDF disclaimer
This PDF file may contain embedded typefaces. In accordance with Adobe's licensing policy, this file may be printed or viewed but shall
not be edited unless the typefaces which are embedded are licensed to and installed on the computer performing the editing. In
downloading this file, parties accept therein the responsibility of not infringing Adobe's licensing policy. The ISO Central Secretariat
accepts no liability in this area.
Adobe is a trademark of Adobe Systems Incorporated.
Details of the software products used to create this PDF file can be found in the General Info relative to the file; the PDF-creation
parameters were optimized for printing. Every care has been taken to ensure that the file is suitable for use by ISO member bodies. In the
unlikely event that a problem relating to it is found, please inform the Central Secretariat at the address given below.
Copyright notice
This ISO document is a Draft International Standard and is copyright-protected by ISO. Except as permitted
under the applicable laws of the user's country, neither this ISO draft nor any extract from it may be
reproduced, stored in a retrieval system or transmitted in any form or by any means, electronic, photocopying,
recording or otherwise, without prior written permission being secured.
Requests for permission to reproduce should be addressed to either ISO at the address below or ISO's
member body in the country of the requester.
ISO copyright office
Case postale 56  CH-1211 Geneva 20
Tel. + 41 22 749 01 11
Fax + 41 22 749 09 47
E-mail copyright@iso.org
Web www.iso.org
Reproduction may be subject to royalty payments or a licensing agreement.
Violators may be prosecuted.
©
ii ISO 2008 – All rights reserved

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ISO/DIS 11296-4
Contents Page
Foreword .v
Introduction.vi
1 Scope.1
2 Normative references.1
3 Terms and definitions .2
4 Symbols and abbreviated terms .4
5 Pipes at the "M" stage.5
5.1 Materials .5
5.2 General characteristics.7
5.3 Material characteristics.7
5.4 Geometric characteristics .7
5.5 Mechanical characteristics.7
5.6 Physical characteristics.8
5.7 Jointing.8
5.8 Marking.8
6 Fittings at the "M" stage .8
6.1 Materials .8
6.2 General characteristics.8
6.3 Material characteristics.8
6.4 Geometric characteristics .9
6.5 Mechanical characteristics.10
6.6 Physical characteristics.10
6.7 Jointing.10
6.8 Marking.10
7 Ancillary components.10
8 Fitness for purpose of the installed lining system at the "I" stage.11
8.1 Materials .11
8.2 General characteristics.11
8.3 Material characteristics.11
8.4 Geometric characteristics .11
8.5 Mechanical characteristics.12
8.6 Physical characteristics.13
8.7 Additional characteristics .13
8.8 Sampling .14
9 Installation practice.15
9.1 Preparatory work.15
9.2 Storage, handling and transport of pipe components .15
9.3 Equipment .15
9.4 Installation.15
9.5 Process-related inspection and testing .16
9.6 Lining termination .16
9.7 Reconnecting to existing manholes and laterals.17
9.8 Final inspection and testing.17
9.9 Documentation .17
Annex A (informative) CIPP components and their functions.18
Annex B (normative) Cured-in-place pipes – Modifications to ISO 178 for flexural testing.19
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ISO/DIS 11296-4
Annex C (normative) Cured-in-place pipes - Test method for the determination of long-term
flexural modulus under dry conditions . 25
Bibliography. 29


iv © ISO 2008 – All rights reserved

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ISO/DIS 11296-4
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.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International Standards
adopted by the technical committees are circulated to the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
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.
ISO 11296-4 was prepared by Technical Committee ISO/TC 138, Plastics pipes, fittings and valves for the
transport of fluids, Working Group WG 12, Rehabilitation of pipeline systems. .
ISO 11296 consists of the following parts, under the general title Plastics piping systems for renovation of
underground non-pressure drainage and sewerage networks:
⎯ Part 1: General
⎯ Part 2: Lining with continuous pipes
⎯ Part 3: Lining with close-fit pipes
⎯ Part 4: Lining with cured-in-place pipes (this standard)
⎯ Part 5: Lining with discrete pipes
⎯ Part 7: Lining with spirally-wound pipes
© ISO 2008 – All rights reserved v

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ISO/DIS 11296-4
Introduction
This standard is a Part of a System Standard for plastics piping systems of various materials used for
renovation of existing pipelines in a specified application area. System Standards for renovation dealing with
the following applications are either available or in preparation:

Plastics piping systems for renovation of underground non-pressure drainage and sewerage networks
(this application);
Plastics piping systems for renovation of underground drainage and sewerage networks under pressure;
Plastics piping systems for renovation of underground water supply networks;
Plastics piping systems for renovation of underground gas supply networks;
These system standards are distinguished from system standards for conventionally installed plastics piping
systems by the requirement to verify certain characteristics in the as-installed condition, after site processing.
This is in addition to verification of characteristics of plastics piping systems as manufactured.
The system standard ISO/DIS 11296 comprises six parts, as follows:

Part 1: General
Part 2: Lining with continuous pipes
Part 3: Lining with close-fit pipes
Part 4: Lining with cured-in-place pipes (this standard)
Part 5: Lining with discrete pipes
Part 7: Lining with spirally wound pipes
A consistent structure of clause headings has been adopted for all parts to facilitate direct comparisons across
technique families.
The requirements for any given renovation technique family are covered by Part 1: General, used in
conjunction with the relevant other Part. For example, for the requirements relating to Lining with cured-in-
place pipes, it is necessary to refer to both Parts 1 and 4. Complementary information is contained in ISO
[1]
11295 , listed in the bibliography.
Figure 1 shows the common Part and clause structure and the relationship between ISO 11296 and system
standards for other applications.
Annex A is informative. Annexes B and C are normative.
This document includes a bibliography.
vi © ISO 2008 – All rights reserved

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ISO/DIS 11296-4
Plastics piping systems
Renovation
  Applications
Gas supply networks
Water supply networks
Drainage and sewerage networks
under pressure
Non-pressure drainage and
sewerage networks
System standards
ISO 11296
Part 1: General
Part 2: Lining with continuous pipes
Part 3: Lining with close-fit pipes
Part 4: Lining with cured-in-place pipes
Part 5: Lining with discrete pipes
Part 7: Lining with spirally-wound pipes
Clause 1: Scope
Clause 2: Normative references
Clause 3: Terms and definitions
Clause 4: Symbols and abbreviated terms
Clause 5: Pipes at the "M" stage
Clause 6: Fittings at the "M" stage
Clause 7: Ancillary components
Clause 8: Fitness for purpose of the installed lining system at the “I” stage
Clause 9: Installation practice

Figure 1 — Format of the renovation system standards
© ISO 2008 – All rights reserved vii

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DRAFT INTERNATIONAL STANDARD ISO/DIS 11296-4

Plastics piping systems for renovation of underground
non-pressure drainage and sewerage networks —
Part 4:
Lining with cured-in-places pipes
1 Scope
This Part 4 of ISO 11296, in conjunction with Part 1, specifies requirements and test methods for cured-in-
place pipes and fittings used for renovation of underground non-pressure drainage and sewerage networks.
It covers the use of various thermosetting resin systems in combination with compatible fibrous carrier
materials and other process-related plastics components as defined in 5.1.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
ISO 75-2:2004, Plastics — Determination of temperature of deflection under load — Part 2: Plastics and
ebonite
ISO 178:2001, Plastics — Determination of flexural properties
ISO 527-2, Plastics — Determination of tensile properties — Part 2: Test conditions for moulding and
extrusion plastics
ISO 899-2:2003, Plastics — Determination of creep behaviour — Part 2: Flexural creep by three-point loading
ISO 3126, Plastics piping systems — Plastics piping components — Measurement and determination of
dimensionsTerms and definitions, symbols and abbreviations
ISO 4435, Plastics piping systems for non-pressure underground drainage and sewerage — Unplasticized
poly(vinyl chloride) (PVC-U) — Part 1: Specifications for pipes, fittings and the system.
ISO 7684, Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Determination of
the creep factor under dry conditions.
ISO 7685, Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Determination of
initial specific ring stiffness.
ISO 8513, Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Determination of
initial longitudinal tensile properties.
ISO 8773, Plastics piping systems for non-pressure underground drainage and sewerage — Polypropylene
(PP) — Part 1: Specifications for pipes, fittings and the system.
© ISO 2008 – All rights reserved 1

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ISO/DIS 11296-4
1)
ISO 10928.2:— , Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes and fittings
— Methods for regression analysis and their use.
2)
ISO 10952:— , Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes and fittings
— Determination of the resistance to chemical attack from the inside of a section in a deflected condition.
3)
ISO 11296-1:— , Plastics piping systems for renovation of underground non-pressure drainage and
sewerage networks — Part 1: General.
4)
ISO 25780:— , Plastics piping systems for pressure or non-pressure water supply, irrigation or drainage and
sewerage — Glass-reinforced thermosetting plastics (GRP) based on unsaturated polyester resin (UP) —
Components intended to be installed using trenchless construction techniques
EN 14364:2006, Plastics piping systems for drainage and sewerage with or without pressure — Glass-
reinforced thermosetting plastics (GRP) based on unsaturated polyester resin (UP) — Specification for pipes,
fittings and joints.
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 11296-1 and the following apply.
3.1 General terms
3.1.1
carrier material
porous component of the liner which carries the liquid resin system during insertion into the pipe being
renovated, and forms part of the installed lining system once the resin has cured
3.1.2
CIPP product
cured-in-place pipe of a particular design, produced from a liner of specified materials, with a wall structure
which is uniquely defined for each diameter/wall thickness combination, and which is impregnated with a
specific resin system and installed by a specific process
3.1.3
CIPP unit
specific cured-in-place pipe produced from a continuous liner which has been impregnated in one process and
installed as a single length
3.1.4
close-fit
situation of the outside of the installed liner relative to the inside of the existing pipeline, which may either be
an interference fit or include a small annular gap resulting from shrinkage and tolerances only
3.1.5
composite
combination of cured resin system, carrier material and/or reinforcement, excluding any internal or external
membranes, or non-structural resin-rich layers

1) To be published.
2) To be published.
3) To be published.
4) To be published.
2 © ISO 2008 – All rights reserved

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ISO/DIS 11296-4
3.1.6
first break
elastic limit or first major discontinuity of the stress-strain curve associated with local failure of the resin matrix
or reinforcing fibres
3.1.7
curing
process of resin polymerisation, which may be initiated or accelerated by the use of heat or exposure to light
3.1.8
design thickness
required wall thickness of the composite as determined by structural design
3.1.9
internal membrane
membrane which forms the inside surface of the pipe after installation
3.1.10
external membrane
membrane which forms the outside surface of the pipe after installation
3.1.11
lateral connection collar
fitting for reconnecting a lined main pipe to an existing or renovated lateral pipe
3.1.12
lining tube
flexible tube, consisting of carrier material, resin system, and any membranes and/or reinforcement, as
combined prior to insertion in the pipe to be lined
3.1.13
nominal thickness
one of a range of discrete liner wall thicknesses dictated by the materials used for liner construction, and
chosen so as to result in a finished wall thickness of the composite not less than the design thickness
3.1.14
preliner
external membrane which is installed separately and before the resin-impregnated liner
3.1.15
reinforcement
fibres incorporated in the liner which enhance the dimensional stability of the liner and/or the structural
properties of the cured composite. The reinforcement may be incorporated in the carrier material, may
constitute the carrier material, or be a separate layer
3.1.16
resin system
thermosetting resin including the curing agent(s) and any fillers or other additives, in specified proportions
3.2 Techniques
3.2.1
inversion
process of turning a flexible tube or hose inside out by the use of fluid (water or air) pressure
3.2.2
inverted-in-place insertion
method whereby the impregnated liner is introduced by inversion to achieve simultaneous insertion and
inflation
© ISO 2008 – All rights reserved 3

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ISO/DIS 11296-4
3.2.3
winched-in-place insertion
method whereby the flat impregnated liner is first pulled into the pipe to be lined and then inflated to bring it up
to size
NOTE Inflation can be achieved by means of a separate pressurised tube or hose inside the liner which is either
withdrawn after resin cure or left in place as a permanent internal membrane.
3.2.4
temporary membrane
internal membrane used to separate process fluid from the resin system during liner insertion which is
withdrawn after resin cure
4 Symbols and abbreviated terms
The following symbols and abbreviated terms apply in addition to those listed in ISO 11296-1.
4.1 Symbols
b : width of test piece
d : mean diameter of pipe
m
E : short-term flexural modulus
0
E : long-term flexural modulus at x years
x
E : flexural creep modulus at time t
t
F : force applied in flexural test
h : thickness of test piece
I : moment of inertia (the second moment of area) per unit length of the pipe wall
L : distance between supports in flexural test
S : initial specific ring stiffness
0
δ : deflection of flexural test piece at time t
t
α : dry creep factor at x years
x,dry
ε : initial flexural strain at zero stress

f0
ε : flexural strain at first break

fb
ε : flexural strain at maximum applied load

fM
σ : required flexural stress in creep test

0
4 © ISO 2008 – All rights reserved

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ISO/DIS 11296-4
σ : flexural stress at first break

fb
σ : flexural stress at maximum applied load

fM
σ : ultimate longitudinal tensile stress

l
4.2 Abbreviated terms
CIPP : Cured-in-place pipe
EP  : Epoxy
GRP : Glass-reinforced thermosetting plastics
PA  : Polyamide
PAN : Polyacrylonitrile
PE  : Polyethylene
PEN    : Polyethylene naphthate
PET : Polyethylene teraphthalate
PP  : Polypropylene
PUR : Polyurethane
PVC-U : Unplasticized poly(vinyl chloride)
UP  : Unsaturated polyester
VE  : Vinyl ester
5 Pipes at the "M" stage
NOTE This clause specifies requirements for the lining tube (i.e. all components before resin cure). Requirements for
the cured composite are specified in clause8.
5.1 Materials
Lining tubes shall comprise at least the following components:
⎯ resin system;
⎯ carrier material;
plus, optionally;
⎯ reinforcement;
© ISO 2008 – All rights reserved 5

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ISO/DIS 11296-4
⎯ internal membrane or temporary membrane;
⎯ external membrane.
The relationship between these components is shown in Figure 2.
NOTE 1 Various components can have end-product or purely process-related functions dependent on the specific
method used. The possible functions of components are described in Table B.1 of informative Annex B.
NOTE 2 The carrier material can itself have a reinforcing effect.

Key
a Internal or temporary membrane

b Composite (resin in carrier material/reinforcement)

c External membrane
d Existing pipeline
Figure 2 — Typical wall construction of lining tube
Lining tube components shall comprise materials conforming to Table 1, and the material used for each
component shall be declared.
6 © ISO 2008 – All rights reserved

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ISO/DIS 11296-4
Table 1 — Classification of lining tube components by their material
Lining tube component Materials
Resin system:
  Resin type UP, VE or EP
  Filler type None, inorganic or organic
  Curing system Heat-initiated, light-initiated or ambient cure
Carrier material/ reinforcement Polymeric fibres: PA, PAN, PEN, PET or PP.
Glass fibres conforming to 4.2.2 of ISO 25780.
a
Combinations of the above fibres .
b
Membranes (internal, external or Unrestricted
temporary)
a
Where a combination of fibres is used, the proportions by mass of each fibre type shall be declared to within
5 %.
b
As there are no requirements for membranes, there are also no restrictions on the choice of materials used
for membranes.

5.2 General characteristics
Coloration used for resin mix and/or impregnation control is permitted.
5.3 Material characteristics
When tested in accordance with the methods given in Table 2, the resin system, when cast singly without filler,
carrier material or reinforcement, shall after cure conform to the mechanical requirements specified in Table 2,
according to resin type.
Table 2 — Material characteristics of resin systems
Test parameters
Characteristic Requirement Test method
Parameter Value
Flexural stress at For UP and VE resins: Speed of testing 2 mm/min ISO 178:2001
first break ≥ 100 MPa Number of test pieces 3
Dimensions of test piece:
For EP resins: ≥ 80 MPa
  thickness h 3 ≤ h ≤ 6 mm
  width b (15 ± 0,5) mm
Tensile For UP and VE resins: Speed of testing 5 mm/min ISO 527-2
elongation at ≥ 2 % Number of test pieces 3
break Test piece shape and Specimen type 1B
For EP resins: ≥ 2.5 %
initial gauge length
Temperature of For UP and VE resins: ≥ Orientation of test piece Edgewise Method A of
deflection under 85 °C Number of test pieces 3 ISO 75-2;2004
load
For EP resins: ≥ 70 °C

5.4 Geometric characteristics
No geometric requirements apply at the ‘M’ stage.
NOTE The perimeter of the lining tube should be dimensioned such that when installed it forms a close fit to the
existing sewer wall, or as otherwise required by the design. The manufactured length and thickness of the lining tube
should include allowances for any longitudinal and circumferential stretch during installation.
5.5 Mechanical characteristics
No mechanical requirements apply at the ‘M’ stage.
© ISO 2008 – All rights reserved 7

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ISO/DIS 11296-4
5.6 Physical characteristics
No physical requirements apply.
5.7 Jointing
The lining tube after impregnation shall be provided in lengths such that no jointing is required between points
of access to the sewer.
5.8 Marking
The marking shall conform to 5.8 of ISO 11296-1. It shall be applied to the outside of the lining tube as
delivered to the installation site or, in the case of pre-packaged lining tubes, on the outside of the packaging.
Under item b) specified in 5.8 of ISO 11296-1, the dimensions marked shall be the nominal outside diameter
or, in the case of lining tubes to be installed in non-circular sewers, the diameter of the circle having the same
outside perimeter as the lining tube.
Under item c) specified in 5.8 of ISO 11296-1, the dimension marked shall be the wall thickness.
Under
...

NORME ISO
INTERNATIONALE 11296-4
Première édition
2009-11-01


Systèmes de canalisations en plastique
pour la rénovation des réseaux de
branchement et de collecteurs
d'assainissement enterrés sans
pression —
Partie 4:
Tubage continu par tubes polymérisés
sur place
Plastics piping systems for renovation of underground non-pressure
drainage and sewerage networks —
Part 4: Lining with cured-in-place pipes




Numéro de référence
ISO 11296-4:2009(F)
©
ISO 2009

---------------------- Page: 1 ----------------------
ISO 11296-4:2009(F)
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Publié en Suisse

ii © ISO 2009 – Tous droits réservés

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ISO 11296-4:2009(F)
Sommaire Page
Avant-propos .v
Introduction.vi
1 Domaine d'application .1
2 Références normatives.1
3 Termes et définitions .2
3.1 Termes généraux.2
3.2 Techniques.4
4 Symboles et abréviations .4
4.1 Symboles.4
4.2 Abréviations.5
5 Tuyaux au stade «M» .6
5.1 Matériaux.6
5.2 Caractéristiques générales .7
5.3 Caractéristiques des matériaux .7
5.4 Caractéristiques géométriques.8
5.5 Caractéristiques mécaniques .8
5.6 Caractères physiques .8
5.7 Assemblage .8
5.8 Marquage.8
6 Raccords au stade «M».8
6.1 Matériaux.8
6.2 Caractéristiques générales .9
6.3 Caractéristiques des matériaux .9
6.4 Caractéristiques géométriques.9
6.5 Caractéristiques mécaniques .10
6.6 Caractéristiques physiques .10
6.7 Assemblage .10
6.8 Marquage.10
7 Accessoires .10
8 Aptitude à l'emploi du système de rénovation installé au stade «I».10
8.1 Matériaux.10
8.2 Caractéristiques générales .10
8.3 Caractéristiques des matériaux .11
8.4 Caractéristiques géométriques.11
8.5 Caractéristiques mécaniques .11
8.6 Caractéristiques physiques .13
8.7 Caractéristiques supplémentaires.13
8.8 Échantillonnage.13
9 Pratique d'installation .14
9.1 Travaux préparatoires.14
9.2 Stockage, manutention et transport des composants du tubage.14
9.3 Équipement .14
9.4 Installation.15
9.5 Contrôle et essais relatifs au processus d'installation .16
9.6 Achèvement du tubage ou chemisage.16
9.7 Raccordement aux regards de visite et branchements existants.16
9.8 Inspection finale et essais.16
© ISO 2009 – Tous droits réservés iii

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ISO 11296-4:2009(F)
9.9 Documentation. 16
Annexe A (informative) Composants du CIPP et leurs fonctions . 17
Annexe B (normative) Tubage continu par tubes polymérisés sur place — Modifications de
l'ISO 178 pour des essais en flexion. 18
Annexe C (normative) Tubage continu par tubes polymérisés sur place — Méthode d'essai pour
la détermination du module en flexion à long terme dans des conditions humides . 25
Annexe D (normative) Tubage continu par tubes polymérisés sur place — Détermination du
facteur de fluage dans des conditions sèches à partir d'un essai de flexion en trois points . 29
Bibliographie . 32

iv © ISO 2009 – Tous droits réservés

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ISO 11296-4:2009(F)
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 (CEI) en ce qui concerne la normalisation électrotechnique.
Les Normes internationales sont rédigées conformément aux règles données dans les Directives ISO/CEI,
Partie 2.
La tâche principale des comités techniques est d'élaborer les Normes internationales. Les projets de Normes
internationales adoptés par les comités techniques sont soumis aux comités membres pour vote. Leur
publication comme Normes internationales requiert l'approbation de 75 % au moins des comités membres
votants.
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.
L'ISO 11296-4 a été élaborée par le comité technique ISO/TC 138, Tubes, raccords et robinetterie en
matières plastiques pour le transport des fluides.
L'ISO 11296 comprend les parties suivantes, présentées sous le titre général Systèmes de canalisations en
plastique pour la rénovation des réseaux de branchement et de collecteurs d'assainissement enterrés sans
pression:
⎯ Partie 1: Généralités
⎯ Partie 3: Tubage par tuyau continu sans espace annulaire
⎯ Partie 4: Tubage continu par tubes polymérisés sur place
Un tubage par tuyau continu avec espace annulaire fera l'objet d'une future Partie 2, un tubage par tuyaux
courts avec espace annulaire fera l'objet d'une future Partie 5 et un tubage par enroulement hélicoïdal avec
espace annulaire fera l'objet d'une future Partie 7.
La présente version française de l'ISO 11296-4:2009 correspond à la version anglaise corrigée de 2010-06-01.
© ISO 2009 – Tous droits réservés v

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ISO 11296-4:2009(F)
Introduction
La Norme de Système, dont le présent document est la Partie 4, spécifie les exigences pour des systèmes de
canalisations en plastique à base de matériaux variés utilisés pour la rénovation de canalisations existantes
dans un domaine d'application spécifié. Les Normes de Systèmes relatives à la rénovation spécifient les
modes opératoires pour les applications suivantes:
⎯ systèmes de canalisations en plastique pour la rénovation des réseaux d'assainissement enterrés sans
pression;
⎯ systèmes de canalisations en plastique pour la rénovation des réseaux d'assainissement enterrés sous
pression;
⎯ systèmes de canalisations en plastique pour la rénovation de réseaux enterrés d'alimentation en eau;
⎯ systèmes de canalisations en plastique pour la rénovation des réseaux de gaz enterrés.
Ces Normes de Systèmes se distinguent des normes relatives aux systèmes de canalisations en plastique
installés traditionnellement du fait qu'elles établissent des exigences concernant certaines caractéristiques
liées aux conditions d'installation, après mise en œuvre sur le site. Cela s'ajoute aux exigences spécifiques
pour les composants du système tels que fabriqués.
Chacune des Normes de Systèmes comprend une Partie 1 (généralités) et toutes les parties applicables aux
familles de techniques de rénovation contenues dans la liste suivante:
⎯ Partie 2: Tubage par tuyau continu avec espace annulaire;
⎯ Partie 3: Tubage par tuyau continu sans espace annulaire;
⎯ Partie 4: Tubage continu par tubes polymérisés sur place;
⎯ Partie 5: Tubage par tuyaux courts avec espace annulaire;
⎯ Partie 7: Tubage par enroulement hélicoïdal avec espace annulaire.
Les exigences applicables à toute famille de techniques de rénovation donnée sont indiquées dans la partie 1,
appliquée conjointement à toute autre partie associée. Par exemple, les parties 1 et 2 spécifient les exigences
se rapportant au tubage par tuyau continu. Pour toute information complémentaire, voir l'ISO 11295. Toutes
les familles de techniques ne sont pas applicables à chaque domaine d'application et cela se reflète dans les
numéros de parties compris dans chaque Norme de Système.
Une structure cohérente des titres des articles a été adoptée pour toutes les parties afin de faciliter des
comparaisons directes entre les différentes familles de techniques de rénovation.
La Figure 1 illustre la structure commune et la relation entre l'ISO 11296 et les Normes de Systèmes
concernant d'autres domaines d'application.
vi © ISO 2009 – Tous droits réservés

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ISO 11296-4:2009(F)

Figure 1 — Présentation des Normes de Systèmes de rénovation

© ISO 2009 – Tous droits réservés vii

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NORME INTERNATIONALE ISO 11296-4:2009(F)

Systèmes de canalisations en plastique pour la rénovation des
réseaux de branchement et de collecteurs d'assainissement
enterrés sans pression —
Partie 4:
Tubage continu par tubes polymérisés sur place
1 Domaine d'application
La présente partie de l'ISO 11296, conjointement à l'ISO 11296-1, spécifie les exigences et les méthodes
d'essais relatives aux tubages continus par tubes polymérisés sur place et aux raccords utilisés pour la
rénovation des réseaux d'assainissement enterrés sans pression.
Elle couvre l'utilisation de divers systèmes de résine thermodurcissable, en combinaison avec des matrices
fibreuses compatibles et autres procédés relatifs aux composants plastiques (voir 5.1).
2 Références normatives
Les documents de référence suivants sont indispensables à l'application du présent document. 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 75-2, Plastiques — Détermination de la température de fléchissement sous charge — Partie 2: Plastiques
et ébonite
ISO 178:2001, Plastiques — Détermination des propriétés en flexion
ISO 527-2, Plastiques — Détermination des propriétés en traction — Partie 2: Conditions d'essai des
plastiques pour moulage et extrusion
ISO 899-2:2003, Plastiques — Détermination du comportement au fluage — Partie 2: Fluage en flexion par
mise en charge en trois points
ISO 3126, Systèmes de canalisations en plastiques — Composants en plastiques — Détermination des
dimensions
ISO 4435, Systèmes de canalisations en plastique pour les branchements et les collecteurs d'assainissement
enterrés sans pression — Poly(chlorure de vinyle) non plastifié (PVC-U)
ISO 7684, Systèmes de canalisations en matières plastiques — Tubes plastiques thermodurcissables
renforcés de verre (PRV) — Détermination du coefficient de fluage en condition sèche
ISO 7685, Systèmes de canalisation en matières plastiques — Tubes en plastiques thermodurcissables
renforcés de verre (PRV) — Détermination de la rigidité annulaire spécifique initiale
ISO 8513, Systèmes de canalisations en plastiques — Tubes en plastiques thermodurcissables renforcés de
verre (PRV) — Détermination des propriétés en traction longitudinale
© ISO 2009 – Tous droits réservés 1

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ISO 11296-4:2009(F)
ISO 8773, Systèmes de canalisations en plastique pour les branchements et les collecteurs d'assainissement
enterrés sans pression — Polypropylène (PP)
ISO 10928, Systèmes de canalisation en matières plastiques — Tubes et raccords plastiques
thermodurcissables renforcés de verre (PRV) — Méthodes pour une analyse de régression et leurs
1)
utilisations
ISO 10952, Systèmes de canalisations en matières plastiques — Tubes et raccords en plastiques
thermodurcissables renforcés de verre (PRV) — Détermination de la résistance à une attaque chimique à
l'intérieur d'un tronçon de tube soumis à déflexion
ISO 11296-1:2009, Systèmes de canalisations en plastique pour la rénovation des réseaux d'assainissement
enterrés sans pression — Partie 1: Généralités
ISO 13002, Fibres de carbone — Système de désignation des fils continus
2)
ISO 25780:— , Systèmes de canalisations en matières plastiques pour l'alimentation en eau avec ou sans
pression, pour l'irrigation ou l'assainissement — Systèmes en matières plastiques thermodurcissables
renforcés de verre (PRV) à base de résine de polyester non saturé (UP) — Tubes avec assemblages flexibles
destinés à être installés par les techniques de poussée
EN 14364:2006, Systèmes de canalisations en plastiques pour l'évacuation et l'assainissement avec ou sans
pression — Plastiques thermodurcissables renforcés de verre (PRV) à base de résine de polyester non saturé
(UP) — Spécifications pour tubes, raccords et assemblages
3 Termes et définitions
Pour les besoins du présent document, les termes et définitions donnés dans l'ISO 11296-1 ainsi que les
suivants s'appliquent.
3.1 Termes généraux
3.1.1
matrice
composant poreux de la chemise, qui retient le système de résine liquide au cours de l'insertion dans la
canalisation à rénover et qui fait partie du système de tubage installé après polymérisation de la résine
3.1.2
produit CIPP
produit de tubage continu par tubes polymérisés sur place
tubage continu par tubes polymérisés sur place d'une conception particulière, produit à partir d'une chemise
en matériaux spécifiés, avec une structure de paroi définie de manière unique pour chaque combinaison
diamètre/épaisseur de paroi, imprégnée d'un système de résine spécifique et mise en œuvre selon un
procédé particulier
3.1.3
unité CIPP
tubage continu par tube spécifique polymérisé sur place, fabriqué à partir d'une chemise continue, imprégnée
en une seule opération et mise en œuvre en une seule insertion

1) À publier. (Révision de l'ISO 10928:1997)
2) À publier.
2 © ISO 2009 – Tous droits réservés

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ISO 11296-4:2009(F)
3.1.4
sans espace annulaire
situation de l'extérieur du chemisage installé par rapport à l'intérieur d'une canalisation existante, qui peut soit
être un contact avec interférence, soit inclure un petit espace annulaire dû uniquement au retrait et aux
tolérances
3.1.5
composite
combinaison du système de résine polymérisée, de la matrice et/ou du renfort, à l'exception de toute
membrane intérieure ou extérieure ou de toute couche de résine pure en excès
3.1.6
première rupture
limite élastique ou première discontinuité majeure de la courbe contrainte-déformation associée avec une
défaillance locale de la matrice de résine ou des fibres de renfort
3.1.7
polymérisation
processus de polymérisation de résine, qui peut être initié ou accéléré par l'utilisation de chaleur ou par
l'exposition à la lumière
3.1.8
épaisseur de dimensionnement
épaisseur de la paroi requise du composite, déterminée par la conception structurelle
3.1.9
membrane intérieure
membrane formant la surface interne du tuyau après installation
3.1.10
membrane extérieure
membrane formant la surface externe du tuyau après installation
3.1.11
selle de branchement
raccord permettant de relier le tubage d'une canalisation principale à un branchement existant ou rénové
3.1.12
chemise
tuyau flexible, composé d'une matrice, du système de résine et de toute membrane et/ou renfort, assemblés
avant leur insertion dans la canalisation à chemiser
3.1.13
épaisseur nominale
épaisseur faisant partie d'une gamme d'épaisseurs de parois de tubage par tuyaux courts imposée par les
matériaux utilisés pour la construction du tubage et choisie pour que l'épaisseur de paroi finie du composite
ne soit pas inférieure à l'épaisseur de dimensionnement
3.1.14
prémembrane
membrane extérieure installée séparément et avant la chemise imprégnée de résine
3.1.15
renfort
fibres incorporées à la chemise, qui améliorent la stabilité dimensionnelle de la chemise et/ou les propriétés
structurelles du composite polymérisé
NOTE Le renfort peut être incorporé dans la matrice, peut constituer la matrice ou peut être une couche distincte.
© ISO 2009 – Tous droits réservés 3

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ISO 11296-4:2009(F)
3.1.16
système de résine
résine thermodurcissable comprenant le(s) agent(s) de polymérisation et tout matériau de charge ou autres
additifs, dans des proportions spécifiées
3.2 Techniques
3.2.1
inversion
procédé qui consiste à retourner un tube ou une gaine flexible sur lui-même en utilisant la pression d'un fluide
(eau ou air)
3.2.2
insertion par inversion
méthode par laquelle la chemise imprégnée est introduite par inversion afin d'obtenir simultanément une
insertion et un gonflage
3.2.3
insertion par tractage
méthode par laquelle la chemise imprégnée est tout d'abord tirée à l'intérieur de la canalisation à chemiser,
puis gonflée pour lui donner sa section normale
NOTE Le gonflage peut être obtenu par l'intermédiaire d'un tube ou d'une gaine flexible distinct sous pression
introduit à l'intérieur de la chemise qui est soit retiré après polymérisation de la résine, soit laissé en place comme
membrane intérieure permanente.
3.2.4
membrane temporaire
membrane intérieure, utilisée pour séparer le fluide de traitement (généralement de l'air ou de l'eau) du
système de résine pendant l'insertion de la chemise, qui est retirée après polymérisation de la résine
4 Symboles et abréviations
4.1 Symboles
b largeur de l'éprouvette
E module en flexion à court terme
0
E module en flexion à long terme à x années
x
E module de fluage par flexion à l'instant t
t
F force appliquée lors de l'essai de flexion
h épaisseur de l'éprouvette
h épaisseur moyenne de l'éprouvette
m
I moment d'inertie (deuxième moment de la zone) de la paroi de canalisation par unité de longueur
L distance entre supports lors de l'essai de flexion
L distance entre les points de contact d'une éprouvette soumise à une flexion courbe avec supports
1
L portée réelle d'une éprouvette soumise à une flexion courbe
2
4 © ISO 2009 – Tous droits réservés

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ISO 11296-4:2009(F)
r rayon de support
R rayon de courbure d'une éprouvette à une épaisseur moyenne
2
V élévation du centre de l'éprouvette soumise à une flexion courbe au-dessus de ses points de contact
avec supports
S rigidité annulaire spécifique initiale
0
δ déformation de l'éprouvette en flexion à l'instant t
t
α coefficient de fluage à sec à x années
x,dry
ε déformation en flexion initiale sous une contrainte nulle
f0
ε déformation en flexion à la première rupture
fb
ε déformation en flexion sous la charge maximale appliquée
fM
σ contrainte en flexion initiale dans un essai de fluage
0
σ contrainte en flexion à la première rupture
fb
σ contrainte en flexion sous la charge maximale appliquée
fM
σ contrainte longitudinale en traction à l'état ultime
l
4.2 Abréviations
CIPP tubage continu par tubes polymérisés sur place
EP résine époxy
GRP plastiques thermodurcissables renforcés de verre
PA polyamide
PAN polyacrylonitrile
PE polyéthylène
PEN polyéthylène naphtalate
PET polyéthylène téréphtalate
PP polypropylène
PUR polyuréthane
PVC-U poly(chlorure de vinyle) non plastifié
UP résine polyester insaturée
VE résine ester de vinyle
© ISO 2009 – Tous droits réservés 5

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ISO 11296-4:2009(F)
5 Tuyaux au stade «M»
NOTE Le présent article spécifie les exigences pour la chemise (c'est-à-dire tous les composants avant la
polymérisation de la résine). Pour les exigences concernant le composite polymérisé, voir l'Article 8.
5.1 Matériaux
Les chemises doivent être composées, au minimum, des composants suivants:
⎯ un système de résine;
⎯ une matrice.
De plus, elles peuvent comprendre en option
⎯ un renfort,
⎯ une membrane intérieure ou une membrane temporaire,
⎯ une membrane extérieure.
Pour la relation entre ces composants, voir la Figure 2.
NOTE 1 Les divers composants peuvent avoir des fonctions d'un produit fini ou simplement celles relatives au procédé
suivant la méthode spécifique utilisée. Les fonctions possibles des composants sont données dans le Tableau A.1.
NOTE 2 La matrice peut avoir elle-même un effet de renfort.

Légende
1 membrane intérieure ou temporaire
2 composite (résine dans la matrice/renfort)
3 membrane extérieure
4 canalisation existante
Figure 2 — Composition type d'une paroi de chemise
6 © ISO 2009 – Tous droits réservés

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ISO 11296-4:2009(F)
Les composants d'une chemise doivent comprendre les matériaux conformes au Tableau 1 et le matériau
utilisé pour chaque composant doit être déclaré.
Tableau 1 — Classification des composants des chemises selon leurs matériaux
Composant d'une chemise Matériaux
Système de résine:
⎯ type de résine UP, VE ou EP
⎯ type de matériau de charge Aucun, minéral ou organique
⎯ système de polymérisation Initié à chaud, initié par la lumière ou polymérisation à température ambiante
Matrice/renfort Fibres polymères: PA, PAN, PEN, PET ou PP
Fibres de verre conformément à l'ISO 25780:—, 4.2.2
Fibres de carbone d'une référence déclarée conformément à l'ISO 13002
a
Combinaisons des fibres ci-dessus
b
Membranes (intérieure, extérieure ou Sans restriction
temporaire)
a
Dans le cas où une combinaison de fibres est utilisée, les proportions pondérales de chaque type de fibre doivent être déclarées
avec une exactitude de 5 %.
b
Comme il n'existe pas d'exigences pour les membranes, il n'existe pas également de restrictions pour le choix des matériaux
utilisés pour les membranes.

5.2 Caractéristiques générales
L'usage de colorant pour le mélange de résine et/ou pour le contrôle de l'imprégnation est autorisé.
5.3 Caractéristiques des matériaux
Lorsqu'il est soumis à essai conformément aux méthodes données dans le Tableau 2, le système de résine,
coulé séparément sans matériau de charge, sans matrice ou sans renfort doit, après polymérisation, être
conforme aux exigences des matériaux spécifiées dans le Tableau 2, selon le type de résine.
Tableau 2 — Caractéristiques des matériaux des systèmes de résine
Paramètre d'essai
Méthode
Caractéristique Exigence
d'essai
Paramètre Valeur
Contrainte en Pour UP et VE: ≥100 MPa Vitesse d'essai 2 mm/min ISO 178:2001
flexion à la
Pour EP: ≥80 MPa Nombre d'éprouvettes 3
première rupture
Dimensions d'éprouvette:
épaisseur h 3 ≤ h ≤ 6 mm
largeur b (15 ± 0,5) mm
Allongement en Pour UP et VE: ≥2 % Vitesse d'essai 5 mm/min ISO 527-2
traction à la
For EP: ≥2,5 % Nombre d'éprouvettes 3
rupture
Forme de l'éprouvette et Éprouvette de type 1B
longueur de référence
initiale
Température de Pour UP et VE: ≥85 °C
...