Rubber and plastic hoses and hose assemblies with internal vapour recovery for measured fuel dispensing systems - Specification

This European Standard specifies the requirements and test methods for verification for hose assemblies with vapour recovery for delivery systems on petrol filling stations.
The hose assemblies with vapour recovery for delivery systems on petrol filling stations need to be capable of withstanding anticipated mechanical, thermal and chemical stressing and be resistant to the combustible liquids used in these applications as well as their vapour and vapour air mixtures. It is imperative that the assemblies be constructed in such a way that actions during normal operation cannot give rise to dangerous electrostatic charges nor that there will be any reduction in the performance of the vapour recovery.
The assemblies are intended for use at ambient temperatures between –30 °C and +55 °C for normal temperature class and –40 °C and +55 °C for low temperature class at a working pressure  16 bar ).
Hoses can be constructed from rubber or thermoplastic elastomer (TPE) and this document specifies the requirements for three types of hoses in two grades and two classes of hose assemblies for measured fuel dispensing systems, including oxygenated fuels ( 15 % oxygenated compounds) with internal vapour recovery tubing or hose.
NOTE   This European Standard is not applicable to multi chamber fuel dispensing hoses.
As part of the certification of a new dispenser, testing of fuel samples in accordance with EN 228 should be carried out at least eight weeks after the first use of the equipment to avoid unrepresentative sulphur content results.

Gummi- und Kunststoffschläuche und -schlauchleitungen mit innenliegender Gasrückführung für Zapfsäulen an Tankstellen - Anforderungen

Diese Europäische Norm legt Anforderungen und Prüfverfahren an Schlauchleitungen mit Gasrückführung für Zapfsäulen an Tank¬stellen fest.
Die Schlauchleitungen mit Gasrückführung für Zapfsäulen an Tankstellen müssen den zu erwartenden mecha-nischen, thermischen und chemischen Beanspruchungen widerstehen können und gegen die bei diesen Anwendungen auftretenden brennbaren Flüssigkeiten sowie deren Gase und Gas-Luft-Gemische be¬ständig sein. Die Schlauchleitungen müssen so ausgeführt sein, dass das Arbeiten bei Normal¬betrieb keine gefährlichen elektrostatischen Aufladungen erzeugen oder die Leistung der Gasrückführung verringern kann.
Die Leitungen sind für den Einsatz bei Umgebungstemperaturen vorgesehen, die für die Normal¬temperatur-klasse zwischen 30 °C und 55 °C und für die Tieftemperaturklasse zwischen -40 °C und 55 °C bei einem Betriebsdruck  16 bar ) liegen.
Die Schläuche können aus Gummi oder einem thermoplastischen Elastomer (TPE) hergestellt werden, und in dem vorliegenden Dokument werden Anforderungen an drei Schlauchtypen festgelegt und zwar für zwei Kate-gorien und zwei Klassen von Schlauchleitungen für Zapfsäulen, einschließlich von Schläuchen mit innen-liegender Gasrückführung, ohne oder mit Einlage, die für mit sauerstoffhaltigen Verbindungen angereicherte Kraftstoffe vorgesehen sind ( 15 % sauerstoffhaltige Verbindungen).
ANMERKUNG   Dieses Dokument gilt nicht für Mehrkammer Zapfsäulenschläuche.
Als Teil der Zertifizierung einer neuen Zapfsäule sollten Kraftstoffproben nach EN 228 mindestens acht Wochen nach der ersten Verwendung der Ausrüstung geprüft werden, um unrepräsentative Ergebnisse in Zusammen¬hang mit dem Schwefelgehalt zu vermeiden.

Tuyaux et flexibles en caoutchouc et en plastique à récupération interne de vapeur pour systèmes de livraison mesurée de carburant - Spécification

La présente Norme européenne spécifie les exigences et les méthodes d’essai pour la vérification des assemblages flexibles à récupération de vapeur des systèmes de distribution équipant les stations-service.
Il est nécessaire que les assemblages flexibles à récupération de vapeur pour les systèmes de distribution équipant les stations-service supportent les contraintes mécaniques, thermiques et chimiques prévues et soient résistant aux combustibles liquides utilisés dans ces applications ainsi qu'à leur vapeur et aux mélanges air-vapeur. Il est impératif que les assemblages soient construits de manière à ce que des actions effectuées en fonctionnement normal ne puissent pas provoquer des charges électrostatiques dangereuses, ni réduire les performances de récupération de vapeur.
Les assemblages sont destinés à être utilisés à des températures ambiantes comprises entre – 30 °C et + 55 °C pour une classe de températures normales et entre – 40 °C et + 55 °C pour une classe de basses températures à une pression de service  16 bar ).
Les tuyaux peuvent être fabriqués à partir de caoutchouc ou d'élastomères thermoplastiques (TPE) et le présent document spécifie les exigences pour trois types de tuyaux avec deux catégories et deux classes d’assemblages flexibles pour les systèmes de livraison mesurée de carburant, y compris les carburants oxygénés ( 15 % composés oxygénés) avec tube ou tuyau interne de récupération de vapeur.
NOTE   La présente Norme européenne ne s’applique pas aux tuyaux multi-chambres pour distribution de carburants.
Dans le cadre de la certification d’un nouveau distributeur, il convient qu’un essai d’échantillons de carburant selon l’EN 228 soit réalisé au moins huit semaines après la première utilisation de l'équipement afin d'éviter des résultats en teneur en soufre peu représentatifs.

Gumene in polimerne cevi ter cevni priključki z notranjim sistemom za rekuperiranje hlapov za sisteme za merjeno točenje goriva na bencinskih črpalkah - Specifikacija

Ta evropski standard določa preskusne metode za preverjanje cevnih priključkov s sistemom za rekuperiranje hlapov za sisteme dovajanja na bencinskih črpalkah. Cevni priključki s sistemom za rekuperiranje hlapov za sisteme dovajanja na bencinskih črpalkah morajo vzdržati pričakovane mehanske, toplotne in kemijske obremenitve ter biti odporni na gorljive tekočine, s katerimi se uporabljajo, ter na njihove hlape in njihove mešanice z zrakom. Nujno je, da so ti priključki zasnovani tako, da njihovi vplivi med običajnim delovanjem ne povzročajo nevarnega elektrostatičnega naboja in zmanjšanega delovanja pri rekuperiranju hlapov. Priključki so namenjeni uporabi pri temperaturi okolice med -30 °C in +55 °C za običajni temperaturni razred ter -40 °C in +55 °C za nizki temperaturni razred pri delovnem tlaku ≤ 16 barov1). Cevi so lahko izdelane iz gume ali plastomernih elastomerov (TPE); ta dokument določa zahteve za tri vrste cevi v dveh tipih in dva razreda cevnih priključkov za sisteme za merjeno točenje goriva, vključno z oksigeniranimi gorivi (≤ 15 % kisikovih spojin), z notranjim priključkom ali cevjo za rekuperiranje hlapov.

General Information

Status
Published
Publication Date
18-Jun-2013
Current Stage
9093 - Decision to confirm - Review Enquiry
Due Date
02-Dec-2018
Completion Date
04-Dec-2018

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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Gummi- und Kunststoffschläuche und -schlauchleitungen mit innenliegender Gasrückführung für Zapfsäulen an Tankstellen - AnforderungenTuyaux et flexibles à récupération interne de vapeur pour un système de livraison mesurée carburant - SpécificationRubber and plastic hoses and hose assemblies with internal vapour recovery for measured fuel dispensing systems - Specification83.140.40Gumene ceviHoses75.200Petroleum products and natural gas handling equipmentICS:Ta slovenski standard je istoveten z:EN 13483:2013SIST EN 13483:2013en,de01-september-2013SIST EN 13483:2013SLOVENSKI

STANDARDSIST EN 13483:20051DGRPHãþD
SIST EN 13483:2013
EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN 13483
June 2013 ICS 23.040.70; 75.200 Supersedes EN 13483:2005English Version

Rubber and plastic hoses and hose assemblies with internal vapour recovery for measured fuel dispensing systems - Specification

Tuyaux et flexibles en caoutchouc et en plastique à récupération interne de vapeur pour systèmes de livraison mesurée de carburant - Spécification

Gummi- und Kunststoffschläuche und -schlauchleitungen mit innenliegender Gasrückführung für Zapfsäulen an Tankstellen - Anforderungen This European Standard was approved by CEN on 25 April 2013.

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-CENELEC 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-CENELEC Management Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and United Kingdom.

EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION EUROPÄISCHES KOMITEE FÜR NORMUNG
Management Centre:
Avenue Marnix 17,

B-1000 Brussels © 2013 CEN All rights of exploitation in any form and by any means reserved worldwide for CEN national Members. Ref. No. EN 13483:2013: ESIST EN 13483:2013

EN 13483:2013 (E) 2 Contents Page Foreword ..............................................................................................................................................................4 1 Scope ......................................................................................................................................................5 2 Normative references ............................................................................................................................5 3 Terms and definitions ...........................................................................................................................6 4 Classification ..........................................................................................................................................6 5 Materials and construction ...................................................................................................................6 5.1 Fuel hose ................................................................................................................................................6 5.2 Vapour hose ...........................................................................................................................................7 5.3 Vapour tubing .........................................................................................................................................7 5.4 Vapour recovery fuel hose assembly ..................................................................................................7 6 Pressure requirements ..........................................................................................................................7 7 Dimensions and tolerances ..................................................................................................................7 7.1 Diameters and bend radii ......................................................................................................................7 7.2 Minimum thickness of lining and cover of the fuel hose ..................................................................8 7.3 Concentricity ..........................................................................................................................................8 7.4 Tolerance on cut lengths ......................................................................................................................8 8 Physical properties ................................................................................................................................8 8.1 Compounds ............................................................................................................................................8 8.2 Finished hoses/tubing ...........................................................................................................................9 8.3 Hose assembly .................................................................................................................................... 11 9 End fittings .......................................................................................................................................... 11 10 Type tests ............................................................................................................................................ 12 11 Frequency of testing .......................................................................................................................... 13 12 Marking ................................................................................................................................................ 13 12.1 Hoses ................................................................................................................................................... 13 12.2 End fittings .......................................................................................................................................... 13 12.3 Hose assemblies ................................................................................................................................. 13 Annex A (normative)

Test method for determination of low temperature class resistance at

–30 ºC (for normal temperature class) and –40 °C (for low temperature class) ............................. 14 A.1 Test piece ............................................................................................................................................ 14 A.2 Apparatus ............................................................................................................................................ 14 A.3 Test method ......................................................................................................................................... 14 Annex B (normative)

Test method for pressure requirements of vapour recovery hoses and tubes .... 15 B.1 Principle ............................................................................................................................................... 15 B.2 Test method ......................................................................................................................................... 15 Annex C (normative)

Test method for determination of change in length due to swelling ..................... 16 C.1 Principle ............................................................................................................................................... 16 C.2 Test method ......................................................................................................................................... 16 Annex D (normative)

Test method for determination of pressure loss ...................................................... 17 D.1 Vapour tubing/hose ............................................................................................................................ 17 D.2 Fuel hose ............................................................................................................................................. 17 Annex E (normative)

Method for determination of adhesion between components ................................ 18 E.1 Dry adhesion ....................................................................................................................................... 18 E.2 Adhesion after contact with fuel ....................................................................................................... 18 SIST EN 13483:2013

EN 13483:2013 (E) 3 Annex F (normative)

Test method for the determination of low temperature flexibility ........................... 19 F.1 Test piece ............................................................................................................................................. 19 F.2 Apparatus ............................................................................................................................................. 19 F.3 Test method ......................................................................................................................................... 19 Annex G (normative)

Test method for the determination of rate of fuel permeation ................................ 21 G.1 Test piece ............................................................................................................................................. 21 G.2 Apparatus ............................................................................................................................................. 21 G.3 Test method ......................................................................................................................................... 21 Annex H (normative)

Test method for flammability ...................................................................................... 22 H.1 Test piece ............................................................................................................................................. 22 H.2 Apparatus ............................................................................................................................................. 22 H.3 Test method ......................................................................................................................................... 22 Annex I (normative)

Test method for the determination of leakage (leak test) .......................................... 24 Annex J (normative)

Test method for fatigue strength under reversed bending stresses (flex test) ...... 25 J.1 Apparatus and test piece .................................................................................................................... 25 J.2 Test method ......................................................................................................................................... 25 J.3 Test observations and report ............................................................................................................. 26 Annex K (normative)

End-fitting pull-off test ................................................................................................. 27 K.1 Test piece ............................................................................................................................................. 27 K.2 Apparatus ............................................................................................................................................. 27 K.3 Test method ......................................................................................................................................... 27 Annex L (normative)

Test frequency for type tests and routine tests......................................................... 28 Annex M (informative)

Test frequency for production acceptance tests .................................................... 30 Bibliography ...................................................................................................................................................... 32

SIST EN 13483:2013

EN 13483:2013 (E) 4 Foreword This document (EN 13483:2013) has been prepared by Technical Committee CEN/TC 218 “Rubber and plastics hoses and hose assemblies”, the secretariat of which is held by BSI. 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 December 2013, and conflicting national standards shall be withdrawn at the latest by December 2013. Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights. This document supersedes EN 13483:2005. Compared with EN 13483:2005, the following fundamental changes have been made: a) In Table 3 "Physical properties of compounds" the compound "Thermoplastic" has been added. b) In Annex L the testing of the ozone resistance has been deleted. c) The normative references have been updated. WARNING — Persons using this document should be familiar with normal laboratory practice. This document does not purport to address all of the safety problems, if any, associated with its use. It is the responsibility of the user to establish appropriate safety and health practices and to ensure compliance with any national regulatory conditions. According to the CEN-CENELEC Internal Regulations, the national standards organisations of the following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom.

SIST EN 13483:2013

EN 13483:2013 (E) 5 1 Scope This European Standard specifies the requirements and test methods for verification for hose assemblies with vapour recovery for delivery systems on petrol filling stations. The hose assemblies with vapour recovery for delivery systems on petrol filling stations need to be capable of withstanding anticipated mechanical, thermal and chemical stressing and be resistant to the combustible liquids used in these applications as well as their vapour and vapour air mixtures. It is imperative that the assemblies be constructed in such a way that actions during normal operation cannot give rise to dangerous electrostatic charges nor that there will be any reduction in the performance of the vapour recovery. The assemblies are intended for use at ambient temperatures between –30 °C and +55 °C for normal temperature class and –40 °C and +55 °C for low temperature class at a working pressure ≤ 16 bar1). Hoses can be constructed from rubber or thermoplastic elastomer (TPE) and this document specifies the requirements for three types of hoses in two grades and two classes of hose assemblies for measured fuel dispensing systems, including oxygenated fuels (≤ 15 % oxygenated compounds) with internal vapour recovery tubing or hose. NOTE This European Standard is not applicable to multi chamber fuel dispensing hoses. As part of the certification of a new dispenser, testing of fuel samples in accordance with EN 228 should be carried out at least eight weeks after the first use of the equipment to avoid unrepresentative sulphur content results. 2 Normative references The following documents, in whole or in part, are normatively referenced in this document and are indispensable for its application. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. EN 26801, Rubber or plastics hoses — Determination of volumetric expansion (ISO 6801) EN ISO 1307, Rubber and plastics hoses — Hose sizes, minimum and maximum inside diameters, and tolerances on cut-to-length hoses (ISO 1307) EN ISO 1402, Rubber and plastics hoses and hose assemblies — Hydrostatic testing (ISO 1402) EN ISO 4671, Rubber and plastics hoses and hose assemblies — Methods of measurement of the dimensions of hoses and the lengths of hose assemblies (ISO 4671) EN ISO 7326, Rubber and plastics hoses — Assessment of ozone resistance under static conditions (ISO 7326) EN ISO 8031:2009, Rubber and plastics hoses and hose assemblies — Determination of electrical resistance and conductivity (ISO 8031:2009) EN ISO 8033, Rubber and plastics hose — Determination of adhesion between components (ISO 8033) EN ISO 8330:2008, Rubber and plastics hoses and hose assemblies — Vocabulary (ISO 8330:2007) EN ISO 10619-1, Rubber or plastics hoses and tubing — Measurement of flexibility and stiffness — Part 1: Bending tests at ambient temperature (ISO 10691-1) ISO 37, Rubber, vulcanized or thermoplastic — Determination of tensile stress-strain properties

1) 1 bar = 0,1 MPa SIST EN 13483:2013

EN 13483:2013 (E) 6 ISO 188, Rubber, vulcanized or thermoplastic — Accelerated ageing and heat-resistance tests ISO 527-1, Plastics — Determination of tensile properties — Part 1: General principles ISO 554, Standard atmospheres for conditioning and/or testing — Specifications ISO 1817, Rubber, vulcanized or thermoplastic —Determination of the effect of liquids ISO 4649:2010, Rubber, vulcanized or thermoplastic — Determination of abrasion resistance using a rotating cylindrical drum device 3 Terms and definitions For the purposes of this document, the terms and definitions given in EN ISO 8330:2008 and the following apply. 3.1 hose assembly fuel hose complete with an internal vapour tubing or vapour hose and fitted with couplings 4 Classification Hoses for this application shall be divided into three types:  Type 1, textile reinforced;  Type 2, textile and helical wire reinforced; or

 Type 3, fine wire reinforced. Each type of hose shall be divided into two grades:  Grade M: electrically bonded;  Grade Ω: electrically conductive. Each type of hose shall be divided into two temperature classes:  normal temperature class with an ambient working temperature of −30 °C to +55 °C;  low temperature class (LT) with an ambient working temperature of −40 °C to +55 °C. 5 Materials and construction 5.1 Fuel hose The fuel hose shall consist of the following: a) a smooth, fuel resistant lining of rubber or thermoplastic elastomer (TPE); b) a suitable reinforcement, related to type; c) a non-corrugated fuel and weather resistant rubber or TPE cover. Hose assemblies shall be capable of conducting an electrical charge from coupling to coupling. SIST EN 13483:2013

EN 13483:2013 (E) 7 When this capability is provided by means of metallic bonding wires, not less than two (metallic) bonding wires shall be embedded in the hose and the metal used shall have a high resistance to fatigue and corrosion. Hoses with metallic wires for electrical conductivity shall be designated ‘M‘ and those using conductive compounds shall be designated ‘Ω‘, the relevant mark being branded on the hose, (see Clause 12). 5.2 Vapour hose The vapour hose shall consist of the following: a) a smooth fuel and vapour resistant lining of rubber or TPE; b) a textile and/or metallic reinforcement; c) a non-corrugated fuel and vapour resistant rubber or TPE. 5.3 Vapour tubing The vapour tubing shall consist of a smooth and vapour and fuel resistant thermoplastic. 5.4 Vapour recovery fuel hose assembly The vapour recovery fuel hose assembly shall consist of an outer fuel hose in accordance with 5.1 and an inner vapour recovery hose in accordance with 5.2 or vapour tubing in accordance with 5.3 with the fuel hose and vapour hose or tubing attached to an electrically bonded coupling system. 6 Pressure requirements The pressure ratings of the fuel hose and the vapour tubing/hose shall comply with values given in Table 1. Table 1 — Pressure ratings Property Pressure ratings bar Fuel hose Vapour tubing/hose Maximum working pressure 16 0,2 abs./8 a

Proof test pressure 24 b

Minimum burst pressure 48 18 a The vapour tubing/hose shall be designed for an absolute pressure of 0,2 bar (vacuum) with an external pressurisation of 8 bar. b See Annex B. 7 Dimensions and tolerances 7.1 Diameters and bend radii Diameters and bend radii shall conform to the values given in Table 2. SIST EN 13483:2013

EN 13483:2013 (E) 8 Table 2 — Dimensions requirements Dimensions in millimetres Tubing/hose/assembly Internal diameter max. Outside diameter max. Bend radius

min. Vapour tubing/hose 8,4 — 75 Fuel hose — 32,6 130 Assembly — — 130

7.2 Minimum thickness of lining and cover of the fuel hose When measured in accordance with EN ISO 4671, the thickness of the lining shall be not less than 1,6 mm and the thickness of the cover shall be not less than 1,0 mm. 7.3 Concentricity When determined in accordance with EN ISO 4671, the concentricity, based on a total indicator reading between the internal diameter and the outside diameter, shall not exceed 0,5 mm for the vapour tubing or hose, and shall not exceed 1,0 mm for the fuel hose. 7.4 Tolerance on cut lengths For cut lengths, the tolerances on length shall be in accordance with EN ISO 1307. The length of a hose assembly shall be measured from sealing face to sealing face of the end fittings with a tolerance from the nominal length of ± 1 %. 8 Physical properties 8.1 Compounds When tested in accordance with the methods in Table 3, the physical properties of the compounds used for the lining and cover shall conform to the values given in Table 3. Tests shall be performed either on samples taken from the hose or from moulded vulcanised sheets at a thickness of 2 mm or moulded test pieces vulcanised to the same cured state as the production hoses. SIST EN 13483:2013

EN 13483:2013 (E) 9 Table 3 — Physical properties of compounds Property Unit Requirement Test piecea Test method

Rubber TPE Thermo-plastic
Tensile strength,
min.
Lining and cover of fuel hose
and vapour tubing and hose
MPa
12 Test piece cut from hose or from test sheet
ISO 37
ISO 527-1 (Thermoplastic) Elongation at break,
min.
Lining and cover of fuel hose
and vapour tubing and hose
250
350
150 Accelerated ageing
Tensile strength change,
Lining and cover fuel hose and
vapour tubing and hose,
max.
ISO 188
(air oven method) 14 days at (70 ± 1) °C
Elongation at break change,
Lining and cover of fuel hose
and vapour tubing and hose,
max.
–35
–20
-35
Resistance to liquids
Swell of lining of fuel hose;
tubing and cover of vapour
hose
max.
ISO 1817 70 70
70 h at 40 °C in
oxygenated fuel Type 3
ISO 1817 25 25
70 h at 100 °C in oil No 3 Extracted matter Lining of fuel hose; tubing and
cover of vapour hose
max. Normal Temperature Class–30 °C Low Temperature Class LT –40 °C
+10 +15
10 15
ISO 1817 70 h at 40 °C in
oxygenated fuel Type 3
then dry 24 h at

100 °C Swell of cover of fuel hose +100 100 ISO 1817 70 h at 23 °C in liquid B Low temperature class resistance, -lining and cover of fuel hose

and vapour tubing and hose, at –30 °C (or at LT –40 °C if required)
No cracks under x 10 magnification
Annex A Abrasion,
max. -cover of fuel hose mm3 500

Test piece from moulded test sheet of cover compound ISO 4649:2010 Method A a It is necessary that the test report indicates the source of the test piece.

8.2 Finished hoses/tubing When tested in accordance with the methods in Table 4, the physical properties of the finished hoses or tubing shall conform to the values given in Table 4. SIST EN 13483:2013

EN 13483:2013 (E) 10 Table 4 — Physical properties of tubing and hoses

Property Unit Requirement Test piece Test method Vapour tubing/hoses Pressure test – Free ball passage, no leakage Short length cut from hose/tubing Annex B Change in length due to swelling

max. % 4 Annex C Annex C Pressure loss
max. bar 0,030 4 m of hose/tubing Annex D, D.1 Burst pressure
min. 18 Short length cut from hose/tubing EN ISO 1402 Adhesion (hose only)
Un-aged
Aged N/mm

2,4 Short length cut from hose Annex E 1,8 Low temperature class flexibility max. – No cracks or breaks Maximum bending force 170 N

Annex F Annex F Fuel Hoses Proof pressure at 24 bar – No leakage or other signs of weakness nor abrupt twisting Full length of hose EN ISO 1402 Proof test pressure Burst pressure,

min. bar 48 Short length cut from hose EN ISO 1402 Burst pressure Volumetric expansion,

max.
Type 1 and Type 2 Type 3 %

2 1 At least 1 m cut from hose EN 26801 Test pressure 3 bar Adhesion between components on

Un-aged hose,
min.
Aged hose,
min. kN/m

2,4 Short length cut from hose Annex E 1,8 Ambient temperature bending – 8,0≥DT EN ISO 10619-1 Nominal diameter C = 10 × nominal bore Low temperature class flexibility No cracks or breaks Maximum bending force 180 N Annex F Annex F Change in length

at proof pressure % 0 to +5 Full length of hose EN ISO 1402 Change in length due to swelling

max. 4 Short length cut from hose Annex C Ozone resistance of cover – No cracks under × 2 magnification EN ISO 7326 168 h at 40 °C, 50 pphm, relative humidity (55 ± 10) %, and elongation 20 % Fuel permeation of hose max.

Normal temperature class
Low temperature class ml/(m⋅day)
12 2 m test piece cut from hose Annex G
SIST EN 13483:2013

EN 13483:2013 (E) 11 Table 4 (continued) Property Unit Requirement Test piece Test method Electrical resistance max. Grade Ω

Grade M
1 x 10 6 Equivalent to the length of hose assembly
EN ISO 8031:2009
4.5, 4.6, 4.7 1 x 10 2 EN ISO 8031:2009

4.8 Flammability – a) Burning with a naked flame to cease within 20 s of removal of the burner; b) no further glowing visible 2 min after removal of the burner; c) hose shall show no sign of leakage Length of assembly to suit test rig Annex H

8.3 Hose assembly When tested in accordance with the methods in Table 5, the physical properties of the hose assembly shall conform to the values given in Table 5. Table 5 — Physical properties of hose assembly Property Unit Requirement Test piece Test method Electrical resistance max. Grade M

Grade
Ω/ assembly
1 X 102 Full length of hose assembly EN ISO 8031:2009 4.8
1 X 106 EN ISO 8031:2009
4.5, 4.6, 4.7 Leak test – No leakage
Annex I Flex test No defects after 18000 cycles No leakage after 50000 cycles

max. electrical resistance Annex J Pull-off test No movement of end fitting after removal of force. Short length of hose assembly Annex K Difference between the change in length due to swelling of the fuel hose and the vapour tubing/hose,

max. %
1,5 Full length of hose assembly Annex C Pressure loss
max. bar 0,75 Annex D, D.2

9 End fittings The end fittings used for this application for both fuel and vapour hoses shall be compatible with the specification shown in Figure 1. In addition, the following requirements shall be fulfilled:  end fittings for fuel and vapour hoses shall be designed for the pressure ratings in accordance with Table 1; SIST EN 13483:2013

EN 13483:2013 (E) 12  end fittings shall be designed so that, where used for their intended purpose, they do not adversely affect in-service reliability of the hose due to sharp edges or burrs;  end fittings shall have a parallel thread;  end fittings with thread sealing (e.g. with Polytetrafluorethylene (PTFE)-band) are not permitted;  the vapour-hose-fitting shall incorporate a suitable seal;  the materials of the thread-bearing parts shall be manufactured from a corrosion-resistant metallic material; control screw threads shall not be made from aluminium;  surfaces that come into contact with the conductive layers of the fuel hose shall be metallically conductive; anodised surfaces and surfaces with insulating layer are not permitted; end fitting components that are in contact with the lining or the cover of the fuel hose shall have secure, electrically conductive, metallic contact when assembled. There are two types of end fittings that may be used, reusable and non-reusable. The use of non-reusable fittings is mandatory in the U.K. Dimensions in millimetres

Key 1 fuel path 2 vapour path Figure 1 — Dimensions of connections 10 Type tests Type tests shall be performed to supply evidence that all the material, construction and test requirements of this document have been met by the method of manufacture and hose design. SIST EN 13483:2013

EN 13483:2013 (E) 13 Type tests shall be performed a minimum of every five years or whenever a change of manufacture or material occurs. 11 Frequency of testing The minimum frequency of type tests and routine tests shall be in accordance with Annex L. The frequency of test for production acceptance tests should be in accordance with Annex M. 12 Marking 12.1 Hoses The hoses shall be marked clearly and indelibly, at not more than 2 m intervals. Marking shall include, at least, the following information: Fuel hose

vapour tubing/hose (a) manufacturer's name and/or trade mark, e.g. - xxx;

(a) the manufacturer's name and/or trade mark, e.g. - xxx; (b) number and date of this document, EN 13483:2013;

(b) number and date of this document, EN 13483:2013; (c) type of hose (1, 2 or 3)

(c) quarter and year of manufacture, e.g. 3Q12.
(e) temperature class e.g
...

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