Plastics piping systems for water supply with or without pressure - Glass-reinforced thermosetting plastics (GRP) based on unsaturated polyester resin (UP)

This European Standard specifies the required properties of the piping system and its components made from glass-reinforced thermosetting plastics (GRP) based on unsaturated polyester resin (UP) intended to be used for water supply (drinking or raw) with or without pressure. In a pipework system, pipes and fittings of different nominal pressure and stiffness ratings may be used together.
NOTE 1    It is the responsibility of the purchaser or specifier to make the appropriate selections from these aspects, taking into account their particular requirements and any relevant national regulations and installation practices or codes.
This standard is applicable to GRP-UP, with flexible or rigid joints (see 3.37 and 3.38), primarily intended for use in buried installations.
NOTE 2    Piping systems conforming to this standard can also be used for non-buried applications provided that the influence of the environment and the supports are considered in the design of the pipes, fittings and joints.
It is applicable to pipes, fittings and their joints of nominal sizes from DN 100 to DN 3000, which are intended to be used for the conveyance of water at temperatures up to 50 °C, with or without pressure.
This standard covers a range of nominal sizes, nominal stiffnesses and nominal pressures.
Clause 4 specifies the general aspects of GRP-UP piping system intended to be used in the field of water supply with or without pressure.
NOTE 3    Attention is drawn to the national requirements, in the country of installation, for the effects on water quality applicable to pipes intended for use in possible contact with drinking water.
Clause 5 specifies the characteristics of pipes made from GRP-UP with or without aggregates and/or fillers. The pipes can have a thermosetting or thermoplastics liner. Clause 5 also specifies the test parameters for the test methods referred to in this standard.

Kunststoff-Rohrleitungssysteme für die Wasserversorgung mit oder ohne Druck - Glasfaserverstärkte duroplastische Kunststoffe (GFK) auf der Basis von ungesättigtem Polyesterharz (UP)

Diese Europäische Norm legt die erforderlichen Eigenschaften eines Rohrleitungssystems und seiner Rohrleitungsteile fest, die aus glasfaserverstärkten duroplastischen Kunststoffen (GFK) auf der Basis von ungesättigtem Polyesterharz (UP) hergestellt und für den Einsatz in der Wasserversorgung (Trinkwasser oder Rohwasser) mit oder ohne Druck vorgesehen sind. In einem Rohrleitungssystem dürfen Rohre und Formstücke mit verschiedenen Nenndruckstufen und Steifigkeitsklassen zusammen verwendet werden.
ANMERKUNG 1   Der Anwender bzw. Auftraggeber ist unter Berücksichtigung der eigenen Anforderungen sowie der geltenden nationalen Festlegungen und Einbaupraktiken für die geeignete Auswahl dieser Kriterien verantwortlich.
Diese Norm ist anwendbar auf GFK-UP mit flexiblen oder starren Verbindungen (siehe 3.37 und 3.38), die in erster Linie für die Erdverlegung vorgesehen sind.
ANMERKUNG 2   Rohrleitungssysteme nach dieser Norm können auch für oberirdische Anwendungen eingesetzt werden, vorausgesetzt, dass der Einfluss der Umgebung und die Auflager bei der Dimensionierung von Rohren, Formstücken und Verbindungen berücksichtigt wurden.
Sie gilt für Rohre, Formstücke und deren Verbindungen mit Nennweiten von DN 100 bis DN 3000, die für den Transport von Oberflächenwasser oder Abwasser bis zu Temperaturen von 50 °C, mit oder ohne Druck, vorgesehen sind.
Diese Norm deckt einen Bereich für Nennweiten, Nennsteifigkeiten und Nenndrücke ab.
Abschnitt 4 legt die allgemeinen Anforderungen an ein GFK-UP-Rohrleitungssystem im Bereich der Wasserversorgung mit oder ohne Druck fest.
ANMERKUNG 3   Hinsichtlich der Einflüsse auf die Qualität des Trinkwassers, das mit Rohrleitungsteilen in Kontakt kommt, wird auf nationale Anforderungen der Länder verwiesen, in dem die Rohrleitungsteile verlegt werden.
Abschnitt 5 legt die Eigenschaften von Rohren aus GFK-UP mit oder ohne Zuschlagstoffe und/oder Füllstoffe fest. Die Rohre können einen duroplastischen oder thermoplastischen Liner haben.

Systèmes de canalisations en plastiques pour l'alimentation en eau avec ou sans pression - Plastiques thermodurcissables renforcés de verre (PRV) à base de résine polyester non saturé (UP)

La présente Norme européenne spécifie les propriétés requises d’un système de canalisations et de ses composants,
fabriqués en plastiques thermodurcissables renforcés de verre (PRV) à base de résine de polyester non saturé (UP)
et destinés à l’alimentation en eau (potable ou brute) avec ou sans pression. Dans un système de canalisation,
des tubes et raccords de pression nominale et de rigidité différentes peuvent être utilisés ensemble.
NOTE 1 Il est de la responsabilité du client ou du prescripteur de procéder aux choix appropriés de ces aspects, en tenant
compte de leurs exigences particulières et de toute réglementation nationale, règles ou codes de pose appropriés.
La présente norme s’applique aux PRV-UP, avec assemblages flexibles ou rigides (voir 3.37 et 3.38), destinés à être
utilisés principalement dans des installations enterrées.
NOTE 2 Les systèmes de canalisations conformes à la présente norme peuvent aussi être utilisés pour des canalisations
aériennes, sous réserve que l’influence de l’environnement et que les supports soit pris en compte dans le dimensionnement
des tubes, raccords et assemblages.
La présente norme s’applique aux tubes, aux raccords et à leurs assemblages de dimensions nominales comprises
entre DN 100 et DN 3 000, destinés à être utilisés pour le transport de l’eau à des températures allant jusqu’à 50 °C,
avec ou sans pression.
Cette norme couvre une série de dimensions nominales, rigidités nominales et pressions nominales.
L’Article 4 spécifie les aspects généraux d’un système de canalisation en PRV-UP destiné à être utilisé dans le
domaine de l’alimentation en eau avec ou sans pression.
NOTE 3 L’attention est attirée sur les exigences nationales, dans le pays d’installation, relatives aux effets sur la qualité de
l’eau, applicables aux tuyauteries destinées à être utilisées en contact possible avec l’eau potable.
L’Article 5 spécifie les caractéristiques des tubes en PRV-UP avec ou sans agrégats et/ou charges.

Cevni sistemi iz polimernih materialov za oskrbo z vodo, s tlakom ali brez njega - S steklenimi vlakni ojačeni duromerni materiali (GRP), ki temeljijo na nenasičeni poliestrski smoli (UP)

General Information

Status
Withdrawn
Publication Date
02-Dec-2008
Withdrawal Date
12-Mar-2013
Current Stage
9900 - Withdrawal (Adopted Project)
Start Date
13-Mar-2013
Due Date
05-Apr-2013
Completion Date
13-Mar-2013

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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Kunststoff-Rohrleitungssysteme für die Wasserversorgung mit oder ohne Druck - Glasfaserverstärkte duroplastische Kunststoffe (GFK) auf der Basis von ungesättigtem Polyesterharz (UP)Systèmes de canalisations en plastiques pour l'alimentation en eau avec ou sans pression - Plastiques thermodurcissables renforcés de verre (PRV) à base de résine polyester non saturé (UP)Plastics piping systems for water supply with or without pressure - Glass-reinforced thermosetting plastics (GRP) based on unsaturated polyester resin (UP)91.140.60Sistemi za oskrbo z vodoWater supply systems83.120Reinforced plastics23.040.20Cevi iz polimernih materialovPlastics pipesICS:Ta slovenski standard je istoveten z:EN 1796:2006+A1:2008SIST EN 1796:2006+A1:2009en,fr,de01-januar-2009SIST EN 1796:2006+A1:2009SLOVENSKI
STANDARD



SIST EN 1796:2006+A1:2009



EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN 1796:2006+A1
November 2008 ICS 23.040.20; 23.040.45 Supersedes EN 1796:2006 English Version
Plastics piping systems for water supply with or without pressure - Glass-reinforced thermosetting plastics (GRP) based on unsaturated polyester resin (UP)
Systèmes de canalisations en plastiques pour l'alimentation en eau avec ou sans pression - Plastiques thermodurcissables renforcés de verre (PRV) à base de résine polyester non saturé (UP)
Kunststoff-Rohrleitungssysteme für die Wasserversorgung mit oder ohne Druck - Glasfaserverstärkte duroplastische Kunststoffe (GFK) auf der Basis von ungesättigtem Polyesterharz (UP) This European Standard was approved by CEN on 21 December 2005 and includes Amendment 1 approved by CEN on 2 October 2008.
CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such national standards may be obtained on application to the CEN Management Centre or to any CEN member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation under the responsibility of a CEN member into its own language and notified to the CEN Management Centre has the same status as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION EUROPÄISCHES KOMITEE FÜR NORMUNG
Management Centre: rue de Stassart, 36
B-1050 Brussels © 2008 CEN All rights of exploitation in any form and by any means reserved worldwide for CEN national Members. Ref. No. EN 1796:2006+A1:2008: ESIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 2 Contents page Foreword.3 Introduction.4 1 Scope.5 2 Normative reference(s).6 3 Terms, definitions and symbols.7 4 General.14 4.1 Classification.14 4.2 Materials.15 4.3 Wall construction.16 4.4 Appearance.16 4.5 Reference conditions for testing.16 4.6 Elapsed time for determination of long-term properties, (x).17 4.7 Joints.17 4.8 Effect on water quality.18 5 Pipes.18 5.1 Geometrical characteristics.18 5.2 Mechanical characteristics.23 5.3 Marking.33 6 Fittings.34 6.1 General.34 6.2 Bends.35 6.3 Branches.38 6.4 Reducers.42 6.5 Saddles.45 6.6 Flanged adaptors.47 6.7 Marking.49 7 Joint performance.50 7.1 General.50 7.2 Dimensions.50 7.3 Non-end-load-bearing flexible joints with elastomeric sealing rings.50 7.4 End-load-bearing flexible joints with elastomeric sealing rings.52 7.5 Wrapped or cemented joints.54 7.6 Bolted flange joints.56 Annex A (normative)
Test method for the resistance to bending and pressure of end-thrust loaded joints in pipe systems.58 Bibliography.62
SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 3 Foreword This document (EN 1796:2006+A1:2008) has been prepared by CEN /TC 155, "Plastics piping systems and ducting systems", the secretariat of which is held by NEN. This European Standard shall be given the status of a national standard, either by publication of an identical text or by endorsement, at the latest by May 2009, and conflicting national standards shall be withdrawn at the latest by May 2009. This document includes Amendment 1 approved by CEN on 2008-10-02. This document supersedes EN 1796:2006. The start and finish of text introduced or altered by amendment is indicated in the text by tags ! ". This standard is a System Standard for plastics piping systems using glass-reinforced thermosetting plastics based on polyester resin (GRP-UP), for water supply with or without pressure.
System Standards are based on the results of the work being undertaken in ISO/TC 138 "Plastics pipes, fittings and valves for the transport of fluids", which is a Technical Committee of the International Organization for Standardization (ISO). They are supported by separate standards on test methods, to which references are made throughout the System Standard. System Standards are consistent with standards on general functional requirements. This European Standard results from merging and revising (by 155 resolution 537/1997) of the following CEN enquiry drafts: prEN 1796-1:1995, prEN 1796-2:1995, prEN 1796-3:1995 and prEN 1796-5:1995. EN 1796 consists of the following main clauses:  Clause 1: Scope  Clause 2: Normative references  Clause 3: Definitions and symbols  Clause 4: General
 Clause 5: Pipes  Clause 6: Fittings
 Clause 7: Joint performance NOTE
Separate CEN/Technical Specifications are published covering practices for installation CEN/TS 14578 [1], and assessment of conformity CEN/TS 14632 [2]. According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom. SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 4 Introduction This System Standard specifies the properties of a piping system and its components when made from glass-reinforced thermosetting plastics (GRP) based on unsaturated polyester resin (UP) intended to be used for water supply with or without pressure.
The working group responsible for this standard is currently working on a test method and requirements for assessing resistance to impact damage. When this work is completed it may result in additional requirements being incorporated into this standard.
SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 5 1 Scope This European Standard specifies the required properties of the piping system and its components made from glass-reinforced thermosetting plastics (GRP) based on unsaturated polyester resin (UP) intended to be used for water supply (drinking or raw) with or without pressure. In a pipework system, pipes and fittings of different nominal pressure and stiffness ratings may be used together. NOTE 1
It is the responsibility of the purchaser or specifier to make the appropriate selections from these aspects, taking into account their particular requirements and any relevant national regulations and installation practices or codes. This standard is applicable to GRP-UP, with flexible or rigid joints (see 3.37 and 3.38), primarily intended for use in buried installations. NOTE 2
Piping systems conforming to this standard can also be used for non-buried applications provided that the influence of the environment and the supports are considered in the design of the pipes, fittings and joints.
It is applicable to pipes, fittings and their joints of nominal sizes from DN 100 to DN 3000, which are intended to be used for the conveyance of water at temperatures up to 50 °C, with or without pressure. This standard covers a range of nominal sizes, nominal stiffnesses and nominal pressures. Clause 4 specifies the general aspects of GRP-UP piping system intended to be used in the field of water supply with or without pressure. NOTE 3
Attention is drawn to the national requirements, in the country of installation, for the effects on water quality applicable to pipes intended for use in possible contact with drinking water. Clause 5 specifies the characteristics of pipes made from GRP-UP with or without aggregates and/or fillers. The pipes can have a thermosetting or thermoplastics liner. Clause 5 also specifies the test parameters for the test methods referred to in this standard. Clause 6 specifies the characteristics of fittings made from GRP-UP with either a thermosetting or thermoplastics liner intended to be used in the field of water supply. Clause 6 specifies the dimensional and performance requirements for bends, branches, reducers, saddles and flanged adaptors and it also specifies the test parameters for the test methods referred to in this standard. Clause 6 is applicable to fittings made using any of the following techniques: a) fabricated from straight pipe; b) moulded by
1) filament winding; 2) tape winding;
3) contact moulding; 4) hot or cold press moulding. Clause 7 is applicable to the joints to be used in GRP-UP piping systems to be used for the conveyance of water, both buried and non-buried. This specification is applicable to joints, which are or are not intended to be resistant to axial loading. It covers requirements to prove the design of the joint. Clause 7 specifies type test performance requirements for the following joints as a function of the declared nominal pressure rating of the pipeline or system: a) socket-and-spigot or mechanical joint; b) locked socket-and-spigot joint; c) cemented or wrapped joint; SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 6 d) bolted flange joint.
2 Normative reference(s) The following referenced documents are indispensable for the application of this European Standard. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. EN 681-1,
Elastomeric seals — Materials requirements for pipe joint seals used in water and drainage applications — Part 1: Vulcanised rubber EN 705:1994,
Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes and fittings — Methods for regression analysis and their use ENV 1046,
Plastics piping and ducting systems — Systems outside building structures for the conveyance of water or sewage — Practices for installation above and below ground EN 1119,
Plastics piping systems — Joints for glass-reinforced thermosetting plastics (GRP) pipes and fittings — Test methods for leaktightness and resistance to damage of flexible and reduced-articulation joints EN 1226,
Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Test method to prove the resistance to initial ring deflection EN 1228,
Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Determination of initial specific ring stiffness EN 1393:1996,
Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Determination of initial longitudinal tensile properties EN 1394:1996,
Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Determination of the apparent initial circumferential tensile strength EN 1447,
Plastics piping systems — Glass-reinforced thermosetting plastics (GRP) pipes — Determination of long-term resistance to internal pressure EN 1452-3, Plastics piping systems for water supply - Unplasticized poly (vinyl chloride) (PVC-U) - Part 3: Fittings EN ISO 75-2:2004,
Plastics - Determination of temperature of deflection under load - Part 2: Plastics, ebonite and long-fibre-reinforced composites (ISO 75-2:2004) EN ISO 527-4, Plastics - Determination of tensile properties - Part 4: Test conditions for isotropic and orthotropic fibre-reinforced plastic composites (ISO 527-4:1997) EN ISO 527-5, Plastics - Determination of tensile properties - Part 5: Test conditions for unidirectional fibre-reinforced plastic composites (ISO 527-5:1997) EN ISO 3126,
Plastics piping systems — Plastics components — Determination of dimensions (ISO 3126:2005) ISO 2531, Ductile iron pipes, fittings, accessories and their joints for water or gas applications ISO 4200, Plain end steel tubes, welded and seamless - General tables of dimensions and masses per unit length ISO 7432,
Glass-reinforced thermosetting plastics (GRP) pipes and fittings - Test methods to prove the design of locked socket-and-spigot joints, including double-socket joints, with elastomeric seals ISO 8483,
Glass-reinforced thermosetting plastics (GRP) pipes and fittings — Test methods to prove the design of bolted flange joints ISO 8533,
Glass-reinforced thermosetting plastics (GRP) pipes and fittings — Test methods to prove the design of cemented or wrapped joints SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 7 ISO 10468,
Glass-reinforced thermosetting plastics (GRP) pipes — Determination of the long-term specific ring creep stiffness under wet conditions and calculation of the wet creep factor ISO 10471,
Glass-reinforced thermosetting plastics (GRP) pipes — Determination of the long-term ultimate bending strain and the long-term ultimate relative ring deflection under wet conditions ISO 11922-1, Thermoplastics pipes for the conveyance of fluids — Dimensions and tolerances — Part 1: Metric series ISO 14828,
Glass-reinforced thermosetting plastics (GRP) pipes — Determination of the long-term specific ring relaxation stiffness under wet conditions and calculation of the wet relaxation factor 3 Terms, definitions and symbols For the purposes of this European Standard, the following terms, definitions and symbols apply. 3.1 nominal size DN alphanumerical designation of size, which is common to all components in a piping system. It is a convenient round number for reference purposes and is related to the internal diameter when expressed in millimetres NOTE The designation for reference or marking purposes consists of the letters DN plus a number. 3.2
declared diameter diameter which a manufacturer states to be the mean internal or external diameter produced in respect of a particular nominal size DN 3.3 nominal stiffness SN alphanumerical designation for stiffness classification purposes, which has the same numerical value as the minimum initial specific ring stiffness value required, when expressed in newtons per square metre (N/m2) (see 4.1.3) NOTE The designation for reference or marking purposes consists of the letters SN plus a number. 3.4 specific ring stiffness S physical characteristic of the pipe, expressed in newtons per square metre (N/m2). It is a measure of the resistance to ring deflection per metre length under external load and is defined by Equation (1):
3mdIES×= …(1) where: E
is the apparent modulus of elasticity, which can be derived from the result of the ring stiffness test, i.e. EN 1228, expressed in newtons per square metre (N/m2); dm
is the mean diameter of the pipe, in metres (m) (see 3.5); I
is the second moment of area in the longitudinal direction per metre length, in metres to the fourth power per metre, (m4/m) [see Equation (2)] SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 8 123eI= (2) where: e
is the wall thickness, in metres (m). 3.5 mean diameter dm diameter of the circle corresponding with the middle of the pipe wall cross section. It is given, in metres (m), by either Equation (3) or (4) edd+=im …(3) edd−=em …(4) where: di is the internal diameter, in metres (m); de
is the external diameter, in metres (m); e
is the wall thickness of the pipe, in metres (m). 3.6 initial specific ring stiffness S0 value of S obtained when tested in accordance with EN 1228, in newtons per square metre (N/m2) 3.7 wet creep factor ααααx,creep,wet ratio of the long-term specific ring stiffness, Sx,wet at x years (see 4.6), determined under sustained loading in wet conditions when tested in accordance with ISO 10468, to the initial specific ring stiffness, S0. It is given by Equation (5) 0wet,wetcreep,,SSxx=α …(5) 3.8 wet relaxation factor ααααx,relax,wet ratio of the long-term specific ring stiffness, Sx,wet at x years (see 4.6), determined under sustained deflection in wet conditions when tested in accordance with ISO 14828, to the initial specific ring stiffness, S0. It is given by Equation (6) 0wet,wetrelax,,SSxx=α …(6) SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 9 3.9 calculated long-term specific ring stiffness
Sx,wet
calculated value of S at x years (see 4.6), obtained by Equation (7) wet,0wet,xxSSα×= …(7) where: x is the elapsed time in years specified in this standard (see 4.6); αx,wet is either the wet creep factor (see 3.7) or the wet relaxation factor (see 3.8); S0
is the initial specific ring stiffness, in newtons per square metre (N/m2) (see 3.6). 3.10 rerating factor RRF multiplication factor that quantifies the relation between a mechanical, physical or chemical property at the service condition compared to the respective value at 23 °C and 50 % relative humidity (R.H.) 3.11 nominal pressure
PN alphanumeric designation for pressure classification purposes, which has a numerical value equal to the resistance of a component of a piping system to internal pressure, when expressed in bars1. NOTE The designation for reference or marking purposes consists of the letters PN plus a number. 3.12 type tests tests carried out to prove that a material, component, joint or assembly is capable of conforming to the relevant requirement 3.13 quality control tests tests carried out for the purpose of process control and/or release of product 3.14 nominal length numerical designation of a pipe length which is equal to the pipe's laying length (see 3.16), expressed in metres (m), rounded to the nearest whole number 3.15 total length distance between two planes normal to the pipe axis and passing through the extreme end points of the pipe including, where applicable, the affixed sockets; expressed in metres (m) 3.16 laying length total length of a pipe minus, where applicable, the manufacturer's recommended insertion depth of the spigot(s) in the socket; expressed in metres (m)
1 1 bar = 105 N/m2 = 0,1 MPa. SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 10 3.17 normal service conditions conveyance of water, both raw and drinking, in the temperature range 2 °C to 50 °C, with or without pressure, for 50 years 3.18 minimum initial design pressure
P0,d least value for mean short term burst test failure pressure, which is evaluated in accordance with the procedures described in EN 705 and used to design the pipe. It is expressed in bars. 3.19 minimum initial failure pressure P0,min least value for short term burst test failure pressure, which is evaluated in accordance with the procedures described in EN 705, expressed in bars. 3.20 minimum long-term design pressure Px,d least value for mean long-term burst failure pressure, expressed in bars, which is evaluated in accordance with the procedures described in EN 705 and includes a design factor of safety, FSd. It is one of the parameters used to determine the minimum initial design pressure.
3.21 minimum long-term failure pressure Px,min least value for long-term burst failure pressure, expressed in bars, which is evaluated in accordance with the procedures described in EN 705 and includes a factor of safety, FSmin. It is one parameter used to determine the minimum initial design pressure
3.22 pressure regression ratio RRP
relationship between the extrapolated mean failure pressure at 50 years to the extrapolated mean failure pressure at 6 min derived using Equation (8) as follows: meanmin,6mean,PR,PPRx= …(8) where: Px,mean is the extrapolated long-term (50 year) mean failure pressure; P6 min,mean is the extrapolated short-term (6 min) mean failure pressure. 3.23 break condition where a test piece can no longer carry load 3.24 non-pressure pipe or fitting
pipe or fitting, subject at its top to an internal pressure not greater than 1 bar SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 11 3.25 pressure pipe or fitting
pipe or fitting having a nominal pressure classification which is greater than 1 bar and which is intended to be used with the internal pressure equal to or less than its nominal pressure when expressed in bars 3.26 buried pipeline
pipeline which is subjected to the external pressure transmitted from soil loading, including traffic and superimposed loads and, possibly, the pressure of a head of water 3.27 non-buried pipeline pipeline subject only to forces resulting from its supports and environmental conditions, including, where applicable, internal negative and positive pressures, snow and wind 3.28 sub-aqueous pipeline pipeline which is subjected to an external pressure arising from a head of water and may be subject to conditions such as drag and lift caused by current and wave action 3.29 design service temperature maximum sustained temperature at which the system is expected to operate, expressed in degrees Celsius (°C) 3.30 relative ring deflection y/dm ratio of the change in diameter of a pipe, y, in metres, to its mean diameter, dm (see 3.5)
It is derived as a percentage, %, when using Equation (9). 100deflectionringrelativem×=dy …(9) 3.31 projected initial relative ultimate ring deflection y2/dm
projected value, at 2 min, expressed as a percentage, derived from the ultimate relative ring deflection regression line obtained from long-term ultimate relative ring deflection tests performed in accordance with ISO 10471
3.32 minimum initial relative specific ring deflection before bore cracking occurs (y2,bore/dm)min initial relative specific ring deflection, expressed as a percentage (%), at 2 min, which a test piece is required to pass without bore cracking when tested in accordance with EN 1226 3.33 minimum initial relative specific ring deflection before structural failure occurs (y2,struct/dm)min initial relative specific ring deflection, expressed as a percentage (%), at 2 min, which a test piece is required to pass without structural failure when tested in accordance with EN 1226 3.34 extrapolated long-term ultimate relative ring deflection
yu,wet,x/dm value, expressed as a percentage (%), at x years (see 4.6), derived from the ultimate relative ring deflection regression line, obtained from long-term deflection tests performed under wet conditions in accordance with ISO 10471 SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 12 3.35 minimum long-term ultimate relative ring deflection
(yu,wet,x/dm)min required minimum extrapolated value, expressed as a percentage (%), at x years (see 4.6), derived from the ultimate relative ring deflection regression line obtained from long-term ultimate ring deflection tests performed under wet conditions in accordance with ISO 10471 3.36 ultimate deflection regression ratio RR,dv ratio of the extrapolated long-term ultimate relative ring deflection, at x years (see 4.6), yu,wet,x/dm (see 3.34), to the projected initial ultimate relative ring deflection, y2/dm (see 3.31), (see Equation (10) m2mwet,u,dvR,dydyRx//= …(10) 3.37 flexible joint joint which allows relative movement between the pipes being joined Examples of this type of joint are: a) socket-and-spigot joint with an elastomeric sealing element (including double socket designs); b) locked socket-and-spigot joint with an elastomeric sealing element (including double socket designs); c) mechanical clamped joint, e.g. bolted coupling including joints made from materials other than GRP. End-load-bearing flexible joints have resistance to axial loading. 3.38 rigid joint joint which does not allow relative movement between the pipes being joined Examples of this type of joint are: a) flanged joint, including integral and loose flanges; b) wrapped or cemented joint; Non-end-load-bearing rigid joints do not have resistance to axial loading. 3.39 angular deflection δδδδ angle between the axis of two adjacent pipes (see Figure 1), expressed in degrees (°) 3.40 draw D longitudinal movement of a joint (see Figure 1), is expressed in millimetres (mm) 3.41 total draw T sum of the draw, D, and the additional longitudinal movement, J, due to the presence of angular deflection (see Figure 1), expressed in millimetres (mm) SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 13 3.42 misalignment M amount by which the centrelines of adjacent pipes fail to coincide (see Figure 1)
Key D
Draw J
Longitudinal movement arising from angular deflection /
Angular deflection T
Total draw M
Misalignment Figure 1 — Joint movements SIST EN 1796:2006+A1:2009



EN 1796:2006+A1:2008 (E) 14 4 General 4.1 Classification 4.1.1 Categories Pipes and fittings shall be classified according to nominal size (DN) (see 3.1), nominal pressure (PN) (see 3.11) and joint type. In addition pipes shall include nominal stiffness (SN) (see 3.3) in their classification. 4.1.2 Nominal size The nominal size (DN) of pipes and fittings shall conform to the appropriate Tables in
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