BS ISO 17484-1:2014
$167.15
Plastics piping systems. Multilayer pipe systems for indoor gas installations with a maximum operating pressure up to and including 5 bar (500 kPa) – Specifications for systems
| Published By | Publication Date | Number of Pages |
| BSI | 2014 | 44 |
This part of ISO 17484 specifies the general requirements and the performance requirements for multilayer pipe systems based on pipes, fittings and their joints intended to be used for gas supply within buildings.
PE-X and PE pipes composed of one stress-designed layer, adhesive and a barrier layer are also covered by this part of ISO 17484.
This part of ISO 17484 gives guidance for the design of piping systems consisting of multilayer pipes based on thermoplastics, for which at least 60 % of the wall thickness is polymeric material. Polymeric materials intended for stress-designed layers and all inner layers are required to be polyethylene (PE) and/or crosslinked polyethylene (PE-X) in accordance with Annex A of this part of ISO 17484. The outer layer of a metal multilayer is required to be PE or PE-X. PE-RT is considered as PE but with specific properties concerning hoop-stress performance (see 5.4.2.).
NOTE The maximum operation pressure of PE 80 may be lower than 5 bar.
This part of ISO 17484 applies to systems that operate at temperatures of −20 °C up to +60 °C.
For the purpose of this part of ISO 17484, crosslinked polyethylene (PE-X) and adhesive layers are considered as thermoplastic materials.
For sizes greater than 63 mm the requirements of ISO 18225 have to be fulfilled in addition.
This part of ISO 17484 is applicable for piping systems used in buildings to supply gas with a maximum operating pressure up to and including 500 kPa (5 bar)1
1 1 bar = 0,1 MPa = 105 Pa; 1 MPa = 1 N/mm2.
This standard applies to the following fuels:
-
Category D gaseous fuel: natural gas; see ISO 13623;
-
Category E gaseous fuel: LPG vapour, and natural gas or LPG vapour; see ISO 13623.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 7 | Foreword |
| 8 | Introduction |
| 9 | Section sec_1 Section sec_2 1 Scope 2 Normative references |
| 10 | Section sec_3 3 Terms, definitions and symbols |
| 11 | Section sec_3.1 Section sec_3.1.1 Section sec_3.1.2 Section sec_3.1.3 Section sec_3.1.4 Section sec_3.1.5 Section sec_3.1.6 Section sec_3.2 Section sec_3.2.1 Section sec_3.2.2 Section sec_3.2.3 Section sec_3.2.4 Section sec_3.2.5 3.1 Structural definitions 3.2 Geometrical definitions |
| 12 | Section sec_3.2.6 Section sec_3.2.7 Section sec_3.2.8 Section sec_3.3 Section sec_3.3.1 Section sec_3.3.2 Section sec_3.4 Section sec_3.4.1 Section sec_3.4.2 Section sec_3.4.3 Section sec_3.4.4 3.3 Definitions related to pressure 3.4 Materials definitions |
| 13 | Section sec_3.5 Section sec_3.5.1 Section sec_3.5.2 Section sec_3.5.3 Section sec_3.5.4 Section sec_3.6 Section sec_3.6.1 Section sec_3.6.2 Section sec_3.6.3 Section sec_3.6.4 3.5 Definitions related to material characteristics 3.6 Terms related to service conditions |
| 14 | Section sec_4 Section sec_4.1 Section sec_4.2 Section sec_4.3 Section sec_5 Section sec_5.1 Section sec_5.1.1 Section sec_5.1.2 Section sec_5.1.3 Section sec_5.2 Section sec_5.2.1 4 Requirements for the system 4.1 Pressure drop 4.2 Bending 4.3 Corrosive conditions 5 Pipes 5.1 Materials 5.2 General characteristics |
| 15 | Section sec_5.2.2 Section sec_5.2.3 Section sec_5.3 Section sec_5.4 Section sec_5.4.1 Section sec_5.4.1.1 Section sec_5.4.1.2 5.3 Dimensions of pipes 5.4 Mechanical properties |
| 16 | Section sec_5.4.1.3 Section sec_5.4.1.4 Section sec_5.4.1.5 Section sec_5.4.1.5.1 Section sec_5.4.1.5.2 Section sec_5.4.2 Section sec_5.4.3 Section sec_5.5 Section sec_5.5.1 5.5 Physical properties |
| 17 | Section sec_5.5.2 Table tab_1 Section sec_6 Section sec_6.1 Section sec_6.1.1 6 Fittings 6.1 General |
| 18 | Section sec_6.1.2 Section sec_6.2 Section sec_6.3 Section sec_6.4 Section sec_6.5 Section sec_7 Section sec_7.1 Table tab_2 Section sec_7.2 6.2 Materials 6.3 Dimensions of fittings 6.4 Transition fittings 6.5 Rubber rings 7 Fitness for purpose 7.1 Diameter classes 7.2 Requirements |
| 19 | Table tab_3 |
| 20 | Table tab_a |
| 21 | Section sec_8 Section sec_8.1 Section sec_8.2 Section sec_8.3 Table tab_4 Section sec_8.4 8 Marking and documentation 8.1 Legibility 8.2 Damage 8.3 Minimum required marking 8.4 Additional Instructions |
| 22 | Annex sec_A Table tab_A.1 Annex A (normative) List of the reference product standards |
| 23 | Annex sec_B Annex sec_B.1 Annex sec_B.2 Annex sec_B.3 Annex sec_B.4 Annex sec_B.5 Annex B (normative) Test for delamination and strength of the joint line |
| 25 | Annex sec_C Annex sec_C.1 Annex sec_C.2 Annex sec_C.3 Annex sec_C.3.1 Annex sec_C.3.2 Annex sec_C.4 Annex C (normative) Resistance to gas constituents |
| 27 | Annex sec_D Annex sec_D.1 Annex sec_D.2 Annex sec_D.2.1 Annex sec_D.2.2 Annex sec_D.3 Table tab_D.1 Annex D (normative) Thermal durability of the outer layer of M-pipes |
| 28 | Annex sec_D.4 |
| 29 | Annex sec_E Annex sec_E.1 Annex sec_E.2 Annex sec_E.3 Annex sec_E.4 Annex E (normative) Adhesion test |
| 30 | Annex sec_F Annex sec_F.1 Annex sec_F.2 Annex sec_F.3 Annex sec_F.4 Annex F (normative) Odour permeability |
| 31 | Annex sec_G Annex sec_G.1 Annex sec_G.2 Annex sec_G.3 Annex sec_G.3.1 Annex sec_G.3.2 Annex G (normative) Resistance to tensile load on joints |
| 32 | Annex sec_G.4 |
| 33 | Annex sec_H Annex sec_H.1 Annex sec_H.2 Annex sec_H.3 Figure fig_H.1 Annex H (normative) Crush test on joints |
| 34 | Annex sec_H.4 |
| 35 | Annex sec_I Annex sec_I.1 Annex sec_I.2 Annex sec_I.3 Figure fig_I.1 Annex sec_I.4 Annex I (normative) Impact resistance test on joints |
| 36 | Annex sec_I.5 |
| 37 | Annex sec_J Annex sec_J.1 Annex sec_J.2 Annex sec_J.3 Annex J (normative) Thermal cycling test on joints |
| 38 | Table tab_b Figure fig_J.1 Annex sec_J.4 |
| 39 | Annex sec_K Annex sec_K.1 Annex sec_K.2 Annex sec_K.3 Annex sec_K.4 Annex K (normative) Repeated bending test |
| 40 | Table tab_c Figure fig_K.1 Annex sec_K.5 |
| 41 | Reference ref_1 Reference ref_2 Reference ref_3 Reference ref_4 Reference ref_5 Reference ref_6 Reference ref_7 Reference ref_8 Reference ref_9 Reference ref_10 Reference ref_11 Reference ref_12 Reference ref_13 Reference ref_14 Reference ref_15 Reference ref_16 Reference ref_17 Reference ref_18 Bibliography |
