DEUTSCHE NORM Augut 1999 Polyethylene (PE) pipe Dimenion { 8074 ICS 23.040.20 Rohre au Polyethylen (PE) PE 63, PE 80, PE 100, PE HD Maße Superede September 1987 edition. In keeping with current practice in tandard publihed by the International Organization for Standardization (ISO), a comma ha been ued throughout a the decimal marker. Page Foreword............................... 1 1 Scope............................... 2 2 Normative reference.................. 2 3 Concept............................ 2 4 Material deignation................... 2 5 Safety factor......................... 2 Content Page 6 Dimenion and deignation............ 3 7 Allowable working preure............. 7 8 Form upplied........................ 17 9 Marking.............................. 17 Explanatory note........................ 17 Other relevant tandard.................. 18 Foreword Thi tandard ha been prepared by the Technical Committee Außendurchmeer und Betriebdrücke of the Normenauchuß Kunttoffe (Platic Standard Committee). See Explanatory note for relation to International Standard ISO 161-1, ISO 4065 and ISO 11922-1, publihed by the International Organization for Standardization (ISO). Amendment Thi tandard differ from the September 1987 edition a follow: a) the material deignation have been updated; b) afety factor have been modified; c) the wall thickne pecification have been amended to conform to ISO 4065 (cf. table 2); d) pipe dimenion are no longer pecified on the bai of nominal preure (PN); e) tolerance on circularity (ovality) have been included; f) ervice life i now aumed to be 100 year (at temperature up to 20 C) Previou edition DIN 8074: 1960-07, 1968-04, 1970-08, 1974-02, 1987-09; DIN 8074-1: 1977-11; DIN 8074-2: 1980-04. Continued on page 2 to 18. Tranlation by DIN-Sprachendient. In cae of doubt, the German-language original hould be conulted a the authoritative text. No part of thi tranlation may be reproduced without the prior permiion of DIN Deutche Intitut für Normung e. V., Berlin. Beuth Verlag GmbH, D-10772 Berlin, ha the excluive right of ale for German Standard (DIN-Normen). Ref. No. Englih price group 12 Sale No. 0112 02.00
Page 2 All dimenion are in mm. 1 Scope Thi tandard pecifie dimenion and tolerance for polyethylene pipe made from type PE 63, PE 80, PE 100 and PE-HD polyethylene, a in DIN 8075. 2 Normative reference Thi tandard incorporate, by dated or undated reference, proviion from other publication. Thee normative reference are cited at the appropriate place in the text, and the title of the publication are lited below. For dated reference, ubequent amendment to or reviion of any of thee publication apply to thi tandard only when incorporated in it by amendment or reviion. For undated reference, the latet edition of the publication referred to applie. DIN 8075 Polyethylene (PE) pipe General quality requirement and teting DIN EN ISO 12162 Thermoplatic material for pipe and fitting for preure application Claification, deignation and overall ervice (deign) coefficient (ISO 12162 : 1995) ISO 161-1: 1996 Thermoplatic pipe for the conveyance of fluid Nominal outide diameter and nominal preure Part 1: Metric erie ISO 1133 : 1997 Platic Determination of the melt ma-flow rate (MFR) and the melt volume-flow rate (MVR) of thermoplatic ISO 4065 : 1996 Thermoplatic pipe Univeral wall thickne table ISO 11922-1 : 1997 Thermoplatic pipe for the conveyance of fluid Dimenion and tolerance Part 1: Metric erie 3 Concept 3.1 Pipe erie A dimenionle number related to the nominal outide diameter of a pipe and it wall thickne (deignated by S). On the bai of thi number, the wall thickne,, i to be calculated a follow: = d 2 S + 1 (1) 3.2 Standard dimenion ratio The ratio of the outide diameter of a pipe to it wall thickne, calculated a follow: d SDR =2S +1R (2) where S i to be taken from table 2. 4 Material deignation The material deignation are baed on the minimum required trength, MRS (i.e. the reitance to internal hydrotatic preure) in water at 20 C for 50 year, a pecified in DIN EN ISO 12162 (with the exception of pipe made from PE-HD). Table 1: Material deignation Material deignation Minimum required trength, MRS, in N/mm 2 PE 063 16,3 PE 080 18,0 PE 100 10,0 PE-HD 5 Safety factor Safety factor hall be a pecified in the appropriate product tandard. According to DIN EN ISO 12162, the minimum afety factor for polyethylene pipe i 1,25. Value for the allowable working preure are given in table 5 to 13, on the bai of afety factor 1,25, 1,6 and 2,0.
Page 3 6 Dimenion and deignation Figure 1 Deignation of a pipe made from PE 80, with an outide diameter, d, of 110 mm and a wall thickne,, of 10 mm: Pipe DIN 8074 110 10,0 PE 80 Deignation of a pipe made from PE 80, with an outide diameter, d, of 110 mm and a tandard dimenion ratio, SDR, of 11: Pipe DIN 8074 110 SDR 11 PE 80 Deignation of an S5 erie pipe made from PE 80, with an outide diameter, d, of 110 mm: Pipe DIN 8074 110 S5 PE 80
6.1 Wall thickne and ma Ma, Ma, Ma, Ma, Table 2: Wall thickne and ma*) Pipe erie Standard dimenion ratio (SDR) Ma, Ma, Ma, Ma, Ma, Ma, Ma, Ma, Ma, Ma, Page 4 (continued)
Page 5 Table 2 (concluded) Pipe erie Standard dimenion ratio (SDR) Ma, Ma, Ma, Ma, Ma, Ma, Ma, Ma, Ma, Ma, Ma, Ma, Ma, Ma, *) The ma ha been calculated taking the average denity a 0,95 g/cm³. For other denitie, the ma hall be etablihed by linear interpolation, taking the wall thickne a the nominal ize plu half the tolerance pecified.
Page 6 6.2 Tolerance on outide diameter and circularity (ovality) Table 3: Tolerance on outide diameter and circularity (ovality) Limit deviation for mean outide diameter 1 ) 2 ) Straight pipe Circularity tolerance 3 ) Coiled pipe Limit deviation for mean outide diameter 1 ) 2 ) Straight pipe Circularity tolerance 3 ) Coiled pipe 1 ) The given value have been calculated a follow: for d ß 400 mm: + 0,009 d, rounded up to the nearet 0,1 mm, at leat 0,3 mm; for d = 450 mm to 710 mm: + 0,004 d + 2 mm, rounded up to the nearet 0,1 mm; for d = 800 mm to 1000 mm: +5,0 mm; for d = 1200 mm to 1600 mm: 8,5 mm. 2 ) The bracketed value apply where pipe are manufactured by heating coil welding. Here, the limit deviation are equal to +0,006 d, but at leat 0,3 mm (rounded up to the nearet 0,1 mm). 3 ) The given value have been calculated a follow for pipe with a tandard dimenion ratio of 17,6: For traight pipe where d ß 75 mm: 0,008 d + 1 mm, rounded up to the nearet 0,1 mm; where d = 90 mm to 250 mm: 0,02 d, rounded up to the nearet 0,1 mm; where d i greater than 250 mm: 0,035 d, rounded up to the nearet 0,1 mm. For coiled pipe, where d ß 63 mm: 0,06 d, rounded up to the nearet 0,1 mm, at leat 1,0 mm. Coiled pipe, where d ö 75 mm: Subject to agreement.
Page 7 6.3 Wall thickne tolerance Table 4: Wall thickne tolerance Wall thickne, Limit deviation 1 ) Wall thickne, Limit deviation 1 ) Wall thickne, Limit deviation 1 ) Up to 2 Over 2 up to 3 Over 3 up to 4 Over 4 up to 5 Over 5 up to 6 Over 6 up to 7 Over 7 up to 8 Over 8 up to 9 Over 9 up to 10 Over 10 up to 11 Over 11 up to 12 Over 12 up to 13 Over 13 up to 14 Over 14 up to 15 Over 15 up to 16 Over 16 up to 17 Over 17 up to 18 Over 18 up to 19 Over 19 up to 20 Over 20 up to 21 Over 21 up to 22 Over 22 up to 23 Over 23 up to 24 Over 24 up to 25 Over 25 up to 26 Over 26 up to 27 Over 27 up to 28 Over 28 up to 29 Over 29 up to 30 Over 30 up to 31 Over 31 up to 32 Over 32 up to 33 Over 33 up to 34 Over 34 up to 35 Over 35 up to 36 Over 36 up to 37 Over 37 up to 38 Over 38 up to 39 Over 39 up to 40 Over 40 up to 41 Over 41 up to 42 Over 42 up to 43 Over 43 up to 44 Over 44 up to 45 Over 45 up to 46 Over 46 up to 47 Over 47 up to 48 Over 48 up to 49 Over 49 up to 50 Over 50 up to 51 Over 51 up to 52 Over 52 up to 53 Over 53 up to 54 Over 54 up to 55 Over 55 up to 56 Over 56 up to 57 Over 57 up to 58 Over 58 up to 59 Over 59 up to 60 Over 60 up to 61 Over 61 up to 62 Over 62 up to 63 Over 63 up to 64 Over 64 up to 65 Over 65 up to 66 Over 66 up to 67 Over 67 up to 68 Over 68 up to 69 Over 69 up to 70 1 ) The given value have been calculated on the following bai: Limit deviation = 0,1 + 0,2 mm, rounded up to the nearet 0,1 mm. A local increae in wall thickne of up to + 0,2 i permiible for up to 10 mm, and of up to 0,15 for greater than 10 mm. The mean value hall, however, remain within the given limit deviation. 7 Allowable working preure 7.1 Pipe conveying water The allowable working preure value, p, in N/mm 2, ha been calculated a follow from the induced tre, the pipe erie number and the afety factor (cf. DIN 8075): p = σ S SF where i the induced hydrotatic tre, taken from the reference curve in DIN 8075; S i the pipe erie number, taken from ISO 4065; SF i the afety factor. 7.2 Pipe conveying other fluid Where pipe are to convey fluid which may be hazardou if handled incorrectly, the cutomer hould contact the pipe manufacturer.
Temperature, in C Year of ervice Table 5: Allowable working preure for pipe made from PE 63, conveying water, with a afety factor of 1,25 Pipe erie Standard dimenion ratio (SDR) Allowable working preure Page 8
Temperature, in C Year of ervice Table 6: Allowable working preure for pipe made from PE 63, conveying water, with a afety factor of 1,6 Pipe erie Standard dimenion ratio (SDR) Allowable working preure Page 9
Temperature, in C Year of ervice Table 7: Allowable working preure for pipe made from PE 63, conveying water, with a afety factor of 2,0 Pipe erie Standard dimenion ratio (SDR) Allowable working preure Page 10
Temperature, in C Year of ervice Table 8: Allowable working preure for pipe made from PE 80, conveying water, with a afety factor of 1,25 Pipe erie Standard dimenion ratio (SDR) Allowable working preure Page 11
Temperature, in C Year of ervice Table 9: Allowable working preure for pipe made from PE 80, conveying water, with a afety factor of 1,6 Pipe erie Standard dimenion ratio (SDR) Allowable working preure Page 12
Temperature, in C Year of ervice Table 10: Allowable working preure for pipe made from PE 80, conveying water, with a afety factor of 2,0 Pipe erie Standard dimenion ratio (SDR) Allowable working preure Page 13
Temperature, in C Year of ervice Table 11: Allowable working preure for pipe made from PE 100, conveying water, with a afety factor of 1,25 Pipe erie Standard dimenion ratio (SDR) Allowable working preure Page 14
Temperature, in C Year of ervice Table 12: Allowable working preure for pipe made from PE 100, conveying water, with a afety factor of 1,6 Pipe erie Standard dimenion ratio (SDR) Allowable working preure Page 15
Temperature, in C Year of ervice Table 13: Allowable working preure for pipe made from PE 100, conveying water, with a afety factor of 2,0 Pipe erie Standard dimenion ratio (SDR) Allowable working preure Page 16
Page 17 8 Form upplied Pipe are to be upplied in pecified length or coil, complying with the tolerance pecified in table 14. Table 14: Limit deviation for nominal length Coil, unwound length Form upplied Limit deviation Actual length not le than nominal length. Straight pipe, up to 12 m t10 mm pecified length over 12 m By agreement 9 Marking Pipe conforming to thi tandard hall bear the following information, marked indelibly at 1 m interval: Example manufacturer identification xyz quality or inpection mark RAL material deignation PE 100 DIN number DIN 8074/DIN 8075 S or SDR value SDR 11 outide diameter wall thickne 32 2,9 MFR or MVR value 005 1 ) date of manufacture 200199 machine number 7 Thi marking i only to be ued for pipe which are not covered in other product tandard or technical rule. Explanatory note With regard to the pecification for outide diameter, thi tandard correpond to ISO 161-1, with regard to the pecification for wall thickne, it correpond to ISO 4065, and with regard to tolerance on outide diameter, circularity and wall thickne, it conform to ISO 11922-1. Nominal preure (PN) i no longer ued for pipe deignation in baic tandard for platic pipe. However, for the purpoe of comparion, table A.1 correlate the old PN value with the S and SDR value. The wall thickne,, of pipe of pecial dimenion i to be calculated on the bai of known internal preure a follow: = p d SF 2σ + p where p i the allowable working preure, in N/mm 2 ; d i the nominal outide diameter, in mm; i the induced hydrotatic tre, a in DIN 8075; SF i a afety factor. It hould be noted that the pipe outide diameter were elected from a preferred number erie. 1 ) The deignation of MFR or MVR determined a in ISO 1133, tet condition T, i a follow: 003: over 0,2 up to 0,4 g/10 min; 005: over 0,4 up to 0,7 g/10 min; 010: over 0,7 up to 1,3 g/10 min; 020: over 1,3 up to 3,0 g/10 min.
Page 18 Table A.1: Correlation of pipe erie, tandard dimenion ratio and nominal preure (PN) Pipe erie, S Standard Nominal dimenion ratio preure (SDR) PN 1 ) 20 41 2,5 16 33 3,2 12,5 26 4 8,3 17,6 6 5 11 10 3,2 7,4 16 2,5 6 (20) 2 ) 2 5 (25) 2 ) 1 ) Taking v, zul a 5 N/mm 2. 2 ) Not included in the 1987 edition of DIN 8074. The ervice life of polyethylene pipe at operating temperature of up to 20 C, previouly given a fifty year, may now be aumed to be at leat one hundred year. The nominal ize and allowable working preure to be ued in particular application are to be included in the appropriate product tandard or other applicable technical rule. According to current knowledge of the long-term tability of polyethylene, it can be aumed that pipe conveying water are capable of reiting the preure given in table 5 to 13. Other relevant tandard DIN 2401-1 Preure and temperature pecification for component ubject to internal or external preure Concept and nominal preure tage DIN 7728-1 Platic Symbol for polymer and their pecial characteritic DIN 16963-1 Pipe joint aemblie and fitting for type 1 and 2 polyethylene (PE-HD) preure pipe Gueted bend for butt welding Dimenion DIN 16963-2 Pipe joint aemblie and fitting for type 1 and 2 polyethylene (PE-HD) preure pipe Gueted tee and branche produced by necking, for butt welding Dimenion DIN 16963-3 Pipe joint aemblie and fitting for type 1 and 2 polyethylene (PE-HD) preure pipe Bend formed from pipe, for butt welding Dimenion DIN 16963-4 Pipe joint aemblie and fitting for high-denity polyethylene (PE-HD) preure pipe Adaptor for heated tool butt welding, flange and ealing element Dimenion DIN 16963-5 Pipe joint aemblie and fitting for high-denity polyethylene (PE-HD) preure pipe General quality requirement and teting DIN 16963-6 Pipe joint aemblie and fitting for high-denity polyethylene (PE-HD) preure pipe Injection-moulded fitting for butt welding Dimenion DIN 16963-7 Pipe joint aemblie and fitting for high-denity polyethylene (PE-HD) preure pipe Fitting for reitance welding Dimenion DIN 16963-8 Pipe joint aemblie and fitting for high-denity polyethylene (PE-HD) preure pipe Injection-moulded elbow for ocket welding Dimenion DIN 16963-9 Pipe joint aemblie and fitting for type 1 and 2 high-denity polyethylene (PE-HD) preure pipe Injection-moulded tee for ocket welding Dimenion DIN 16963-10 Pipe joint aemblie and fitting for type 1 and 2 high-denity polyethylene (PE-HD) preure pipe Injection-moulded ocket and cap for ocket welding Dimenion DIN 16963-11 Pipe joint aemblie and fitting for type 1 and 2 high-denity polyethylene (PE-HD) preure pipe Adaptor, flange and ealing element for ocket welding Dimenion DIN 16963-13 Pipe joint aemblie and fitting for type 1 and 2 high-denity polyethylene (PE-HD) preure pipe Turned and moulded reducer for butt welding Dimenion DIN 16963-14 Pipe joint aemblie and fitting for type 1 and 2 high-denity polyethylene (PE-HD) preure pipe Injection moulded reducer and nipple for ocket welding Dimenion DIN 16963-15 Pipe joint aemblie and fitting for high-denity polyethylene (PE-HD) preure pipe Pipe coupling Dimenion