Date of Issue: December 13, 2018 Affected Publication: API SPECIFICATION SCT, Casing and Tubing, 10" Edition, June 2018 Errata 1 Text Corrections Section 3.4.10, Corrections shail be made as indicated within the red box. "ne man eerence between coupinn mate a3 coup stock 1 al coup mate ts RO manary NDE ‘Hepedion aguremente ose 0. 1e) sa Satan or manner NDE aequsenente er ene cong Sootion 3.1.19, Corrections shail bo mado as indicated within the red box. NOTE Sop Table Ca2Bane€ 22 Seotion 3.2, Comections shall be made as indicated within the ved boxes. “es eee Yen, Section 4.3, Comections shall be made as indicated within the red box. 43. Dual Referencing In the interests of worldwide appheation of this EERATARE] the API Subcommittee on Tubular Goods (S05) has decxlod, ater dotted technical analysis, thot certain documents Hted in Section 2 and prepared by API SCS or ther techneal commitees are ilerchangeabe in the contert ofthe relevant requirement withthe relevant dactmen prepared by the Intemational Organzaton for Standardization (SO} oF the Aenean Society for Testing and Matecals (ASTI), These falter documents are cited n the runnin text tolowina the API eterence and preceded DySection 6.2.1, Corrections shall be made as indicated within the red box: For te purposes of is standard, n adsion o the tes and denon gvenin Secon] the terms and dtrations gen HASTAIAD forhest eainent operations alsa ape Section 7.5.1, Corrections shall be made as indicated within the red box. 76:1 [Grades)H4o, 465, and Kes Section 7.10.1, Conections shail be made as indicated within the red box Far each «70, mass, chemical campasivon, ad austantiza.and-quench combat, 9 ivough-wak harness test shall be made on products ater quenerang and padr tO teripeing for eae production run to chatactenze the nardening response. These Wests shall be mage on the body of produets of, in the case of upset products or accoszory materia, shai be made inthe upset of design area of qeatest wall ihiskross. Man hardness numbers ‘hall aqua 6: axco8d the haednass corosponding ta a miu cA smartensite a coterminod by Equation 2) Section 10.5.4, Corrections shail be made as indicated within the red box: 10.5.4 Test Method for Grades H40, J55, K55, NBO (All Types), R95, find LBO (Type 1) Section 10.7.8, Corrections shall be made as indicated within the red box. 10.7.8 Replacement of a Reject Length—All Grades tthe reals of @ test do not meet the requvements of 7.4 to 7.6, a appleabie, nd da net quality fer testing in acoordanoe with [ZT] han an arsdsond) Byes tos spedinene shal be vamoved from wech of twee addtional langths fom te lial the scktonalfeogths tested conior fo the requrements, then the lt shal be quoiiog ‘excop for Ihe Tenath that was iy raectes I Ne oF Mox® OF the adatonal nats tested fal © conor 1 tho Speotiodrequrements, tne monislacier may wet Wo lest anda the remaning ergs the oto cohen reat ‘ne tet the fol as 0 ak Section 10.15.9, Corrections shall be made as indicated within the red boxes: 10389) Flbody,Fullonth NDE of Casing and Tubing rade C0, 16, C110. and O26 App shat bs wasnt inspects fr tho eteton of bon org rsvro pees on tho Cut and acdsee sovonancs fora L2 mn aevodonco wi 160 HOES or ASTI ETS fengtuia ta EERIE asta Won) Section 10.15.10, Thicd paragraph, Corrections shall be made as indicated within the red box: For Grades H40, J55, KS6, NO (ll types), RES, id LOOT BOSL]Ino wos seam shel be Inspected for the Selection of onpadinal imperfections by ene er moce othe ftiowng mallets Section 10.15.11, Corrections shall be made as indicated within the red boxes: 10.15:11_ NOE of Coupling Stock (ECEBE STATE CHIU] Accessory Material (Except Grade C110) and Pup Joints (ail races Section 10.15.11.1, Corrections shall be made as indicated within the red box: 10.45.11.1 Whos NDE is required for couptng stock [ST SEEDSSOY MST, SCAT GTRIE CTIG according to Table C42 o Table E42, the inspacton shal be for the delecion of longiudnal and Wanevetee Imperfections on the tse surface fo acceptance level L? by one or more ofthe follwing methods!Section 10.15.42.1, Corrections shall be made as indicated within tho rod box: ‘0 eagle stoke an Fy matonal shal be nspectod fr the detection of snaradn “inpevtotns on he nuts surface Yo oceptaon lv (2 by ore or mews Dt he tawng sats 7 Section 6.3.2, Corrections shail be made as indicated within the red box: G.32_ Wall Thickness ‘The USCEEIII for wat ckness were converted ta SI valves sig Eaton (@ 3) hamster 6 Section G.10.3, Corrections shall be made as indicated within the red boxes: 6403. Cuiteat Suess intensity Factor (aac for SSC Rodueinents The cea acs iene nor eplonedin USE may converte Svalies eng Ceuon (636 Fao” 1009 i os) i ete tes ints fo for SSC, exqressed hm megapacas-seure et felts (MP, inte con eeseinesty ocr” SSC, extosoednhopounds-aquarerotot mene An et Eig SSE ay ne 1 ere he conned USC votes for ate ates wlonay tale Kn fF SIC thay be rund te he meres song egare oe ons se) Section H.3.2, Corrections shail be made as indicated within the red box: H.32 Grades ROS and P110 (6.3.1, 6.3.3) Gog press stung or hot olay strong 400 °C (ZED #7] mewn a ene af rotory straightening unless & hhghor mnimum temperate is specie i tho purchase agrownent] ss acceptable. ft roory skawghtening ws not possible, te pipe may be cok-otny sagen proving # than srese-sekved a 10 (50°F) oF er ‘Section J.7.1, item h), Corrections shall bo mado as indicated within the red box: h) NDE for longitudinal and transverse, intemal and external defects to acceptance level AIH 18 1 3)Section 6.5.1 through K.6.5.8, Corrections shell be made as indicated within the red boxes: KOS. SR 11.5ff}-Non-weld Area Inspection ‘Tha pipe body chal be inepectos inthe samme manna asthe seamless product as speed n Section 10. 6.52 SR 11.5B-Non-destructive Examination of Weld Sean ‘The weld seam of pipe (excapt upset ends) furnished to this standard shal be ingpected non-dactuctvelyfuliength [100 s) by easonie method, Tho nepecton shake petomed afer af heat zeaunent and any subsequent rotary ‘skaightoning operation pe upsets ehae be inspected as spected in 10.1514 Ke63 SR 11.5 §-Equipmenc [Any equipment utizing the ulescns principles capable of continuous and unintarupta inspection ofthe isl seam, stallbe used, The equipreent shall be checked win an applicable rofernce standard as descibed in K8.5B)SR 1158) at ledet once every working shit to damonstrate Uwe effectiveness of the inspecton equipment and procedures. The equipment shall be adjusted to procuce welldatined indications whan the reference standere is Scanned by the inepection uni in @ manner simulating tha inepecton of the product, and shall be cspabie of ‘nspecting 1.8 mm (pin) on ear side of the weld line fr the erie wal thicknass 054 SR 11.5{@-Reterence Standards K6.55 SR 11.618 -Rejection Limite ‘ny impertection hat produces a signa greater than or equ fo the signal ceived trom the reference sland shal bp considered a defect unless can be demonstrated bythe manufacturer thatthe imposfection ous not axcood the proosions of K 8 5BISR 113 165.8 SR 11.5{6} Disposition Section K 7.2, Third paragraph; Corroctions shalt be made as indicated within the red box. 8y agieoment between purchaser and manulacure, 8 factor I of SBN may be used in tau of te values given in Table 6:51 (SR 121) o: Table €.51 (SR 12-1) prxidod tho stanéars deviaton ofthe nev lot of materials consistant ‘ith past experience Section K.9.8.5, Corrections shall be made as indicated within the red box: 9.65 SR 16.6.6-—Sub-size Test Temperature Reduction—Grades M40, J65, anc KSB Only | teal omperalre resucton may be requred when sub-sz8 (9st specimens are used, Tho lest temperature reduction depends onthe mekness af tha pipe and the size of ho impact tst specimen, ‘The fest termpercture reduction specified in Table C57 (SR 16.) oF Table E67 (SR (TET) shit bo used wien cpnlieable, Bibliography, tem 12: Corrections shall be made as indicated within the red box: [12] NACE MROTZS:ISO 15156-1, Powaloum and nate! gus mduisineohotenate or use. HpS-—contaunng ‘namonments i lant gas production {Part 1 General patepos for Block of ack resistant mato]Figure Corrections Figure D.14: The figure shall be updated as indicated within the red boxes: Pismo a) asm(eny Figure D.14—Measuring End Stralghtness Figure 0.17: The figure shall be updated as indicated within the red box. oc | datas | aratsars) | drome) | aas2soas | aassieae) | 251009 | Sas (0155 sor, | rrsos | des r7sny | (Ergo sea) [27267 10795 | 27320 (0 my) 25440100, | 3.0188) sve | 2083 | arscears) | Ezeo.e) |zera6iri2y | sss i183) | 251020 | 6 0158) san | dara | Se2teaeo) | L7o%0 90) [aonscrtaa2 [ape rose) | 2560900 | 3a Cor9H 6 aosao | ea0;e 700) | s7e¢0.88) |oeaa (iso |csea ts te) | 251.0100) | 34510 96) wen | araae | casero) | areqosne [arr rertesan [arnrs usr) 280100 | 396,018) 20 sooo | eoozrso) | rojo.) |soeo4 19929 |p006 90.8) 2540100 | 3050155) Figure 0.22: The figure title shalt be revised as indicated within the red boxes. Figure 0.22-xamples of Marking Requirements and Sequence for Manvtacturers and Tireaders using the ‘API Monogrem [Anekes Rand F)}Section 11, and Table C48 or £48 [a] examPLe +—Tubing Labol 1:2 "i Labo! 2: 6.6, Grado N80 Typo 4, olociric wold, oxtornal upset, throados (oy ‘hemanutactorer)pin-ty-pin without couplings. January 20XX. [BJEXAMPLE 2—Tuing Label 1:27, Label 2: 8.7, Grade L.80 Type 1, seamiass, external upset. plain-end Killonal requirements include hydrostalc testing fo 34.5 MPa (13.700 psl) and inspection t0 SR 2. Jenunry 20x. eJeXAMPLE 2.-Cosing Label 1: 7. Label 2 36. Grado COO Type 1, seamless, plan-ond, soral number 201 Supplementary requirement 16 (SR 16} for tast at ~10 °C {914'"F), The pipe was pressure fesed 10 68 MPA {10,000 pss). February 20xx [@] EXAMPLE 4 * —-Tubing coupling for Label 2 fe, Grade J55, normalized upset (or non-upset) ‘tubing, only visual inspection required. April 20XXFigure D.22 (continued): The figure ttle shall be revised as indicated within tho red boxes. ‘Manutaeturere ‘name ot mare wersct seoce X48 PL] Marutoesers Samer mark APISCT woxpAa? 535°¥ & ‘Stamp Marking—Optiona win aporeximately 0:3 m (1) from the covptna) {[BIJEXAMPLE 5 "Buttress casing with coupling: Label 1: 9%, Label 2: 53.5, Grade P110, electric weld; Supplementary requirements ara SR 11 and SR 16 for test at 18°C (0 °F) and 216 8 ram (6.500 i.) dt test. Coupling is tn-piated. Oecombor 204K, Figure 0.29: The figure shall be updated as indicated within the red box weesTable Corrections Table 3: Corrections shail be made as indicated within the red box: ‘Tablo 3—Purchaser Manufacturer Agrooment (Casing) Table 7- Corrections shall be made as indicated within the red boxes: Requirement Reference Table 9: The title shalt be revised as indicated within the red box. ‘Table 9Ful.size Test Specimen Minimums Absorbed Energy Requirements (Eauplngslfor Grades NEO (Al Types], R85, 80 (All Types}, C80, 795, F110, and 128) Table 10: Values shalt be updated as indicated within the red boxes: TTansveise Reauorent Toncitedinal Reaurement o ‘ Faeoomnarsoonssy | Vga lworrser -omsTa oF 14g, oehover er oF 27 5, wichovert gost abi 18) (debe c.19) oie) gay 00118 01389 ear FA. anatovers 07 |r Ad wt on ta 18) I uti0€ 1 | Page 10158 a 08 fegeo so ey TOR sacs eau |e 20ND whehove ger (ae £1) avo 19) Pqe say oe (oxo +0125) cr 15mib,wtscnever stent | ox 30H, whchove grater (Too € 18) atto10)Table 11: Corrections shail be made as indicated within the red box: —heee ai System [ana'Grade] rants, ous Grades C110 mara USC uns, foot-pounds Grades C110 and Q125 Table 14: Values shall be updated as indicated within the red boxes: Table 14—Dimension Tolerances (Upset integral Tubing} om Taranceo bind aera | ately Table 15: Values shall be updated as indicated within the red boxes: Table 15—Dimension Tolerances ERE UPSECTEETER Tabet ToweI aL] SipwsaTable O.1: The text and values shall be made as indicated within the red boxes: Tl? elm |e) ee ete] ee] om ce] > |ose | we |e | a | fm | PMR PS mb pas | Table C.4: Valuos shall be updated as indicated within the rod boxes: Table CA—Chemieal Composition, Nass Fraction (3) ae fee Tin aw os Tete = bef r wpe wi} —f—[otai-)et- ete To 5 Se = = ee i 0.0% oe ne oo oT Pte pee Ss ypeye ceo wap pL Spe tt | ono fe ase te Foam eas to ou 10 02% 03 pan | 0000 04s wor 018 03 ato 0% 10 8m 10 050 0% oor [ania] von WW Ber Ow 022 02 190 — — 20 4a 080 025 om |oor | 100 co 4 oe 120 028" 08 — 1 099 — ao foaw} — 15 1 = 0m = 120 02% 08 0m 10 029 ~ com fom) — cue = | = fom = 120/02 100 040 180 oseTable C.5: The text shall be updated as indicated within the red boxes: ‘Table C.5—Tensie and Hardness Requirements eae | coe | ig | ere] SR me] cane ee | mn [wwe |e [am [ow | nem We Cees ase to = [| ep am ea sf = wo | a | oe | om | ve | oo |-|-| — = Res = as 5 708 134 ={-l.— Eee ce Pp ae pas ae eee a a wo | or} ae | ae | oe | ee fafa) ~ a wo | wer] os | we | oe | ces [nofan| — | — nwo) 4 veoswass¢] 50 23640 20 we PP ee ae eae ae Pa | 30 rerereot | 40 rwosw25%0 | 50 2540 20 oe fa aa 9a se ae | 2 30 rarest | 40 e340 30 ref = | ee ef ef me = ome] 1 05 BD 1034 a Peto S270 30 rartwreot| 40 eos 0 Fs Say Rc Cary REO Re nT Norte nee pecfecf eumant mae an amtcung ln aca th 8872 J Ferment ass ts Sas 8 CT 8 CD eet ae WHRC ee SSSTablo C.6: Values shall be updated as indicated within the red boxes: Table €.6-~Elongation Table amon ciate a ~T= [Ble] l«[~ le a et a_i > er] er] wer l«l@|-|=|=l=]=|= Hee ee aetna patimceeteeH | eee eet ee oti--tiiea-tHia aly ati-Hestare-tiet-Hat-t Pasioraserrasir ee cece fc eetean late ete ea eCia teeing = (Eee ak Be seTable ©.7: The tile shel be revised as indicated in red box: ‘Table C:7—Critical Thickness for Couplings with API Threads {Biante mnt ‘iaical Thickness for Couplings be w w pesil Cesranee eae Z a | Hee Table C.13; Corrections shall be made as indicated in the red boxes: Toble C43-Charpy impact Test Specimen Requitements for Couplings, Coupling Stock, Coupling Material Coupling Blanka, and Accessory Material for Grades N&O (All Types), RES, ond T8S "AP Gonmncion Type snd GVM Specimen Orentaion St, 30d Ewer tae | ]__Speciatsiearance™ ww oa 8 we | se tae - - Pee eee - soto | - SE ESSE ee He oe | | 1.800 } - ~ - - - a | L040 - ~ Zs i aM | rat = = - - ae] - trae = o4 - = = reat i 7 ~ - - ve = 7h - ~ ~ 1029 7 on | e100 2% - - ~ 1030 o 10% o 2 7 ae rose 1% 2 2 e = 10M 1% = ~ - = T1024 eh = a i it i o i 2 = = 7 a 7 - : IROTE Wb aut, pe specs rea ona Bye marae peers sae 8,1 a Ajemin Saye Sacomen se meeses Bnet wif apcrnca sae aveseccnSoprg shack wane soeing wea heicose Taine vanuane pecenan reratonisee Fire 81 Lhe lng gsenen onan (ee Fge OH 9=tiase be 191m. “Om 5s pie he 1Ormn« Sra Rar enough owe + Tac EY ares at pei cornea eosgge ae mochines om ep cag HNTable C.18: The text shall be moved down one row as indicated in red box: Seer = 1 z s 4 2 é |. 7 Table C.23: Corrections shall be made as indicated within the red boxes: ‘Table C.29—Dimensione and tiasses for Standars Casing and for Casing Threaded with API Round Thread ‘and Buttress Thread Noi ee at “inline Gain or ova to End Samat | asa. | TEA | plameter|pismster Finishing fae sMEE.| ese I ‘e Reon Tread | Bs Trvad HEHE aim [nim aim | sot | Lone sec ole ets ee Pe ie Sosa cnn ys ornare orn en 78ilwoma yk regeTable ©.26: Values shall be updated as indicated within the red box: Twol so] wae | aa | — [me [om os [Se [pay me | woe fom sso] 276] 4020 | an | | seee | sone | 025 | 959 |/somn|| 2540 | 4200 | a70 pmlsa | ae am [| aw | ae lanes | wm [als] ae fen | Table C.27: Corrections shail be made as indicated within the red boxes: ‘Table €.27—Ronge Lengths Ranges [ene] Renae ERNST ana oF rane ere ee | sonore | rerworss | wae 48 es | 1 ue 199 [Tuan ano case UseD AS TuBNG T CS EEE Eeeee eee rerane Se) | srg eng ace 610107028 | aston 7s | crane 12608 es 261 051 068 ieTEGRAL TUBING CONNESTIONS fnckang IPE na ise) Tottrange eng, nase | sm7s2" | osswr0s6 | 115601972 Penns vation, max? oat 061 ost PuRNONTS caaine O84: 9H 12a 188: 244 a and eB ‘erance: 40076 Capraro oa ar Sonos Wa patos a dos nl pW ee TOTO a TOOT TD > semen banens cicero east gm ma cats 87 + einer buen tran tc, he manne gh be ncaa 1076, + apace neweensuenterantnantc he noes TZ For mp ay i p BD SRNR RAT NTT fan ie bo aed anatase Table C.28: Corrections shall be made as indicated within the red boxes Table ¢.28—Standard Drift Size ‘Sianaara Onn wanerel Se Proguct and Label 1 PERE eee = a a [casng T 2%. os | 2 08Table C.33: Values shal bo updated as indicated within the red boxes: ‘Table €.39—API Butress Thread Casing Coupling—Oimensions. Tolerances, and Masses See" | oust Donetr mae ioimum | olameter | wih ot utside | Region | Speci ,| “tong” | Oar | asonmg Fae taveis | Sameter | “ERE | cuerance| “SSE | counterore | "8 fee ° 7 ° regu | $8061, 7 Z 7 aps [6 7a = Te} aaa | RR] | PERE] | masa | aves | ems] een ae 5 | sre | fara} | resse] | aire | woe form fae | ane sis | sear | [tsoaal | [rasza} | ane | uas2s | ru | oon | sar Table C.34: Values shall be updated as indicated within the red box: ‘Table €.34—API Non-upset Tubing Coupling—Dimensions, Tolerances, and Masses See einem Sean ouside | nme | pimeteror| wiser | Pract ‘Outside | Diameter | ‘Length | Recess” | 8826 | Diameter, | Mass tanert | dame | Deg” | te aces | zee . tee y& 7 at as - eT EE ae Tae i | ww | aw | ew ao | veo | ew | oi) ais ow soo | 026 | asee | 9825 ser | | oss 2% | com | ror | vrs | orca | are | oes | faze Me 7302 eas | 130.18 7465 476 8098 24 am | eo | vara | vwzee | aos | ae | mae | fan 4 103.60 12065 | 146.05 103.20 ATG 192, 435 avy | vaso | sox | isseo | iso | are | zis | [ame ‘casing > mavdes casing uses as KDTable C.38: Corrections shall be made as indicated within the red boxes: SSE |aaiaes (Sarees : : | “ aE or a Coung ik tame ase 60 Ty PL 50° 129% Later 1:29:30 Couping bank fericanaais) |axgmastec and |Couping toc ane Sabin ata ei ear oe ™ ‘ : Taba 1 2955 BE couping wank abel 11295 506 Tabla C.39: Correetions shall be made as indicated within the red boxes: ‘Table C.39--Frequeney of Tensile Testing—Pup Joints and Accessory Materia Cmonern| Hanae oat Grade atrial and Heat Treatment Conditions ‘cur Harber Freese nate erie | Reh o z a 7 se TEER anc cnc ing orca mono ormeTee r Neiatynoss | mt "eng saa woo casa ton ore mare Tels feo ae pes) abet 24 °8 400 Tegigenea mw mwatongn [sch esi ‘wapep ne erase | eit ogee : [sect cgcrenea sqie so tetera Resin dara igo ow crore est ud pet Thick wa mechanical abe Bae Sock fen a gle HestTable C.40: Corrections shal be made as indicated within the red box Table €.40—Frequency of Hardness Testing Taner Maximum Number ot rade Matera Srtoee | Maximum na Type ot eet otter |e ier tat nr Q i Tre Tare Teagan] Baayen in "att Ee ieee Tiegh wa | Boy este eat soe ‘att ‘Coupling tanks or hot 2 Heat.treal tot or 400 ~ Coupling wank ‘ecg cova tua "chu est Papjnis[Batheat | 23 )W60 pop mis 400 [Tool | —p antor ane ‘entre coe mates: | “qt” | accsly one Aeerssoy ered a) mean” S54 | tested a Memataea’ [Hentaemea [2° | tai@ee wa"* | thoawan ) | Aponte peal Tent Geoaant | | acne tnese to vex (reed 09%) | Iconimaons | 280 [Tovar OHS | Trougaan | — Pup ontor cat fqynrant™ accedeany ene eaten | ie {retro | soa Table C.43: Corrections shall be made as indicated within the red boxes Table 6.43 —Acceptance linspestion) Levels ds lee Eaverar perecione ‘Wienarinperecions Tengiuaina’ | Wanaverse "| Vanguaina | Transverse 3c 5 é oT KS SR 15 ana KES Pipe vay ®Table 0.48: Corrections shall be made as indicated within the red boxes: 8 | Recuced altemative impact test - fegeratve eppicase Fa Sretiestedtenpeoue te | 6.9 |B ep jel ep iutsiespecmens nang Bambara] 3 ea eae appa | 2680 SCTE z | e ep |e e sr P ei oe e T | Sappenenay awenenis @ aepieae K2¢6R 9) si p ° 4962 s e ° 4 oR 9 HNN son.» | Kase =) sa] bore 19 (SR 16) mane poe | fa'sceenegy ocopton reirement mus ard est | Stde..9 | P Fenpecne cng py ae 10 (9822) P D > | -amext rst ° P ° P ze fce fas |se tpt | aa | ay a sepimfes|ie) ops pay © 1S) | aefie/esfac] 2 |: | Rly ai : kd saa | ooes | sow | veo | — = = + =Tablo E.4: Values shall be updated as indicated within the red box: ‘Table E.4—Chemical Composition, Mass Fraction %b) Table E.5: Values shall be updated as indicated within the red boxes: ‘Table €.6—Tenslle and Hardness Requirements unde | tw | Baraiton, me ‘soci | ae | Siete" | aes a0 as 40 © eo | [ 08 He) | tei faa yas [come 30 osorwor | 40 orcas | 0 | 00 50Table & 6: Valuos shall be updated as indicated within the red boxes. te ina non tow oe fence ieanat fearon taniant atta Hea Pra see teea His [em enone anos ow © 8 Gow 2 e Table E.7: The title shall be revised as indicated within the red box: “Table E.7—Critical Thickness for Couplings with API ThreadsTable E.10: Corrections shall be made as indicated within the red boxes: ‘API Connection Type and GVN specimien Orentation, Sige, Energy, and Temperature Reduction 7 |Special clearance nu fu ec us sc 2 —— rene | ree | crwa | rea | era | cea u e tse | reo | tao | ri tsse | reve | raesf | roc - - — | roa | riotsa | rina | Tios5a = : = Heine | TO1eA | rosa | T1015 a = - TaotA | THOt8A | EInIS€ | TIO — | torsa | tio | riots | riots = 7 = | rosa | toss, | rioisa | rroisa }o- Jena | row, | = | trois, = = = rosea | Hos, = 7 e THOI5A T0484, a o : rina | — | Ta0asa. TiOIsA | T0.6.A | Totes | rosa | Toa Table E13: Corrections shail be made as indicated within the red boxes: “Table £.13—Charpy Impact Fest Specimen Requirements for Couplings, Coupling Stock, Coupling Material, ‘Coupling Blanks, and Accessory Material for Grades NBO Type 1, NGO, RBS, ana TOS “PI Connection Type and CN Specimen Orientation Site, nd Energy T ‘Special Clearance cy a aTable E.23: Values shall be updated as indicated within the rod box: ‘ble €25—Dimenslons and Masses fr Standard Casing anor Casing Theaded wit API Round Tiveas nd butions head T T caeadtia? eit] eat | bac vat 7 cui "Era resis | ont | : Diameter | Mase_| TSK | piameter| Deter | lal Sn or Lowe Gus to End Finishing He. | nese Labele Found Tivesd | Butvess Thea tm | shon | tong | Re | seo Table E.27: Corrections and values shail be made as indicated within the red boxes: Table €.27—Range Lengths feASING (PET and cise) tal ange eng, elusive 2500340 60 ‘MOted0 Bd 10d08 20 Teal range length, inclusive 20102400 | 2002705 20 20 Pervasive viton, axTablo E.28: Corrections and values shall be mado as indicated within the red boxes: ‘Table E.28—Standard Drift Size [Dimensions in ches] ‘Standard alt Mancrel Size Proguct and Label # | jean EEE EEE Lee ena Biamster om +95 8 dog 2 Fabra? 2 2 6% > 2Mgto< 8% 28% 19< 10% [= eraom ng shal be ted Defoe uparting wih 2 ah mane ae aoe an oa alee be diese lhe pin str wgotog, cya df ane 2 oy Sn, 0015 msfaneter oe Table E25, Cao for.) (Casing sizes lager tha Label 1 4 ty bt iat thin Label 107% speeed by pre tbe ned in saree eet ma oe peri Sect Table 33: Values shall be updated as indicated within the red box: Bae” | Ouaide Olanater Tass a ee ee cas | iy | Met cde) Teg | OTST, aver 7 7 i e eguir | citerance , “ a 4 | 6 o 2 ® on sam | nats | guy | S140 Sy was | ome Bhi 5500 6.300 sa7s aM | soa Mise 20.50 805, ot | 662s | ram | roo | aby | sas | man | 1246 Tig 7625 8500 8125 0% | 7765 | hs M88 oarTable E 38: Corrections shail be mado as indicated within the red boxes: [siand TY Coun stock and |couing msenat babel 10 Bg 8a Lapel 295%: 20¢ ot forging Label #85 80] abot 2059 306 Sara tok a seqpieg aces [ctianias | ibe 2 Lopol 120% 90 Table €.39: Values shall be updated as indicated within the red boxes: ‘Table £.39—Frequency of Tensile Testing—Pup Joints and Accessory Materlal [ensayo cn a one 0 eNOS Maadmama Number of | MUMER OF TES ‘rade ‘Material ana Heat Testment Conatons © um Number er | per tot ] 2% aa id ing Cg a on cr eS i oo Fangio eH Le i eebpracan semen tawe | 265% 00 Ta a eee 7 rari nisin ~|@ipgemaee | PTable E.40: Corrections shall be made as indicated within the red box: Table €.40—Frequency of Hardness Testing Table E43; Corrections shall be made as indicated within the red boxes: Table €43—Acceptance (inspe on} Leva Tube] Maximum omer et ade Motel wae Type otteet | Location Tee ite nace i z a 3 ¢ Co BST | Baa et ‘Sien aoe som isa] a TiOse rca] Bd nats caipeg | aus airing nk ort “| iia 88 TTacagh wa] Cain ane ean ee ig pis Joacheat | 2°] 100 pupprisa 490} Taeaghwals | Penta Se lieth sceeaymaanalss| “gman” | atey ao teorssay | tea a moon” [faa Wesstene aaeaed | 25 | Tae Taa6e | Tweainal | Papjeator_| Bap eel ‘retort’ | acesey erate ase woh (method b, | 2) eemainie | 38 | Laren 0 | Tracanwes, | Paneer oo amon’ | acesoy oto oot iat tmenet (323 atria rade Enteral mpedelons Longitudinal | Tranaverse 2 2 tea intemal nperecions ieagitudinet Traraverse ene ca, 15,010, e125 PHO WKAR 16) and KER 7 Socand nod E aig Sioa ee JPite, ata [Riloibor rads ww sa gades cee C110 atone races oI (SAA ceca nah Oa TO econ epoca ve TotenTable & 48: Corrections shail be made as indicated within the red boxes: 4” | See desenanontwiniaeay Sesopaten tam Cohan ot ‘ae oF 2) Specks deter foreaping [stare oer pets no ites desgnsion ncaa eager eT ‘pected wal thetness er haringuac stor pode rin ace ena Reduced eave mye eek femperaue, eappicase File specnedied iempecaure far | «oF ® e P P ise spent eng i Elsymboten ect wesimer, apnatie or KES z ® P ° P all P e P | TF | Supperentanyreqaremont sopieaue —K26R1 st ° KR 9 P Ka (sReyftingpe) — | S806.» 5 |-Ko se) sis oor (el SSSR enemy ° feaurmert rien | St6e. +f . erent ~K(8820 se P o |e Amen ty woin |e ep tel p P Hycrostauc test pressure © [egpreetatctr At dost Table G.2: The title shall be revised as indicated within the red box: ‘able 6 2-Tana-and Pipe RASS Ta Fons By Grad ondTablo H.1: Corrections shall be made as indicated within the red boxes: Table HA—Reference Table for PSL-2 and PSL-3 Requirements (Continued) Gate Amesit| apscr ; ws | wee | hel, | MPT os | h8| HBS [cso | 95 | ero [ons 1 2 3 4 & 6 7 @ a 10 it | 1 > [ a - HeeCasing and Tubing API SPECIFICATION 5CT TENTH EDITION, JUNE 2018 ERRATA, DECEMBER 2018 API MONOGRAM PROGRAM EFFECTIVE DATE: JULY 1, 2019 AMERICAN PETROLEUM INSTITUTE atSpecial Notes API publications necessarily address problems of a general nature. With respect to particular circumstances, local, state, and federal laws and regulations should be reviewed Neither API nor any of API's employees, subcontractors, consultants, committees, or other assignees make any warranty or representation, either express or implied, with respect to the accuracy, completeness, or usefulness of the information contained herein, or assume any liabilty or responsibilty for any use, of the resuits of such use, of any Information or process disclosed in this publication. Neither API nor any of AP's employees, subcontractors, consultants, or other assignees represent that use of this publication would not infringe upon privately owned rights. API publications may be used by anyone desiring to do so. Every effort has been made by the Institute to ensure the accuracy and reliably of the dala contained in them; however, the Institute makes no representation, warranty, or {guarantee in connection with this publication and hereby expressly disclaims any labilty or responsibilty for loss or damage resulting from its use ar for the violation of any authorities having jurisdiction with which this publication may confict ‘API publications are published to facilitate the broad availabilty of proven, sound engineering and operating Practices. These publications are not intended to obviate the need for applying sound engineering judgment regarding when and where these publications should be utilized. The formulation and publication of API publications. {is not intended in any way to inhibit anyone from using any other practices, ‘Any manufacturer marking equipment or materials in conformance with the marking requirements of an API standard is solely responsible for complying with all the applicable requirements of that standard. API does not represent, \Warrant, of guarantee that such products do in fact conform te the applicable API standard, ‘All ights reserved. No par of this work may be reproduced, iransleted, stored in a retiieval system, or tansmited by any means, electronic, mechanical, photocopying, recording, or otherwise, without prior wniten permission from the publisher. Contact the Pubisher, API Publishing Services, 1220 L Street, NWV, Washington, OC 20008. Copyright © 2018 American Petrofeum instituteForeword Nothing contained in any API publication is to be construed as granting any right, by implication or otherwise, for the manufacture, sale, or use of any method, apparatus, or product covered by letters palent. Neither should anything contained in the publication be construed as insuring anyone against lability for infringement of letters patent. ‘The verbal forms used to express the provisions inthis specification are as follows: — the term ‘shall® denotes a minimum requirement in order to conform to the standard; — the term “should” denotes a recommendation or that which is advised but not required in order to conform to the standard; — the term "may" is used to express permission or a provision that is optional; — the term “can*is used to express possibilty or capability. Informative elements—As used in a standard, “informative” denotes elements that identify the document, introduce its ‘content, and explain its background, development, and its relationship with other documents or provide additional Information intended to assist the understanding or use of the document Normative elements—As used in a standard, “normative” denotes elements that deseribe the scope of the document and that set out provisions that are required to implement the standard. This document was produced under API standardization procedures that ensure appropriate notification and participation in the developmental process and is designated as an API standard. Questions concerning the interpretation of the content ofthis publication or comments and questions concerning the procedures under which this publication was developed should be directed in wring to the Director of Standards, American Petroleum Institute, 1220 L Sireet, NW, Washington, DC 20005. Requests for permission to reproduce or translate all or any part of the material published herein should also be addressed to the Director. Generally, API standards are reviewed and revised, reaffirmed, or withdrawn at least every § years. A one-time ‘extension of up to 2 years may be added to this review cycle. Status of the publication can be ascertained from the API Standards Department, telephone (202) 882-8000. A catalog of API publications and materials is published annually by API, 1220 L Street, NW, Washington, DG 20008, Suggested revisions are invited and should be submited 10 the Standards Department, API, 1220 L Steet, NW, Washington, OC 20005, standards @opi.orgContents 4A 12 13 14 18 3A 32 33 4A 42 43 44 64 52 53 64 64 62 63 A 6s 7A 72 73 74 Applicability—Connections vane Applicability—Grades ‘Supplementary Requirements. Application of the API Monogram Normative References ns, Symbols, and Abbreviations. ay ‘Terms and Defini Symbols. Abbroviations. Conformance... References to Annexes. Extended Scope. Dual Referencing Information to be Supplied by the Purchaser Grades C90, 196, and C110. Coupling Stock, Coupling Material, and Accessory Material Process of Manufacture. General Hoat Treatment... Straightening mmm Traceability. Processes Requiring Validation... Material Requirements. Chemical Composition Tensile Proportios Charpy V-notch Test—General Requirements. Charpy V-notch—Absorbed Energy Requirements for Coupling Stock, Coupling Material, Coupling Blanks, and Couplings passin 2BContents 1 76 1 78 79 7.40 7H a2 743 744 84 85 86 a7 88 39 310 ant 812 8.43 344 oA 92 93 94 96 96 97 98 Charpy V-notch-Absorbed Energy Requirements for Pipe Charpy V-notch—Absorbed Energy Requirements for Accessory Mater Maximum Hardness .osnn : ay Hardness Variation—Grades C80, T95, C110, and @126.. Process Control—Grades 690, T95, C110, and 125. Hardenability—Minimum Percentage Martensite for Quenched and Tempered Products. Grain Size—Grades C80, 196, and C110. Surface Condition—Grades 80 9Cr and LB0 13Cr. Flattoning—Eloctric-wolded Pipe wuss Sulfide Stress Cracking Test-Grades C90, T95, and C140.cun Dimensions, Masses, Tolerances, Product Ends, and Defects Labels and Sizes. Dimensions and Masse: Length.. Casing Jointers.. Height and Trim of Electric-weld Flash... Straightness Drift Requirements.. Tolerances on Dimensions and Masses. Product Ends. Defects. num Coupling Make-up and Thread Protection Couplings... General Requirements . Alternative Grades or Heat Treatments. Mechanical Properties Dimensions and Tolerances. Regular Couplings.. Spocial Clearance Couplings—All Grades Except 125 Combination Couplings... Seal-ring CouplingsContents. 98 9.10 oat 92 943 9a4 3.15 10 40.4 10.2 10.3, 10.4 105 108 10.7 10.8, 10.9 40.10 10.11 40.12 10.13 10.14 10.18 4 “4 11.2 13 114 118 16 2 424 122 Special-bevel Tubing Regular Gouplings—All Grades Except C110 and @126.. Threading Surface Inspection. Measurement of Imperfections. Reps Thread Surface Treatment—Grade 125 Couplings and Coupling Blank Protection—Grades C80, T96, C110, and Q126.. wns Inspection and Testing Test Equipment.. Lot Definition for Testing of Mechanical Properties. Testing of Chemical Composition Tensile Tests ..... jes C90, T95, and C110 Hardenability—-Grades C90, 795, and C110 Sulfide Stress-cracking Test—Grades C90, 195, and C11 ‘Motallographic Evaluation—EW Grades P110 and Q125. Hydrostatic Tests. Dimensional Testing... Visual inspection Non-destructive Examination (NDE). Marking senso General. ‘Stamp Marking Requirements .. ‘Stencil Marking Requirements Color Identification Thread and End-finish Marking Pipe-threader Marking Requirements un Coating and Protection Coatings. ‘Thread Protectors..Contents. 13 434 13.2 Certification Requirements. 43.3 Certification Content 13.4 Retention of Records 14 Minimum Facility Requirements for Various Categories of Manufacturer. 144 142 14.3. Pipe Throader snnsmunssnen 144 Coupli ‘Annex A (informative) AP! Monogram Program Use of the API Monogram by Licensees ‘Annex B (normative) Purchaser Inspection... 19, Pup joint, or Accessory Manufacturer... ‘Annex-G (normative) Tablos in SI Units Anmex 0 (normative) Figures in SI (USC) Units Annex E (normative) Tables in USC Units.. Annex F (informative) Additional Information for API Monogram Annex G (informative) Procedures Used to Convert from USC to SI Units. Annex H (normative) Product Specification Levels Annex | (normative) Requirements for Thread Protector Design Val Annex J (informative) Summary of Product Specification Level (PSL) Requirements. Annex K (informative) Supplementary Requirements. Bibliography. Tables 1 Purchaser Supplied Information (Casing) wun semana 2 Purchaser Supplied Agreement Optional Requirements (Casing) 3 Purchaser/Manufacturer Agreement (Casing) 4 Purchaser Supplied Information (Tubing) . 5 Purchaser Supplied Agreement Optional Requirements (Tubing) 6 —_Purchaser/Manufacturer Agreement (Tubing) 7 Purchaser Supplied information (Coupling Stock and Material and Accessory Material) 8 Purchaser Supplied Agreement Optional Requirements (Coupling Stock and Material, and Accessory Material) nant sal 3 Full-size Test Specimen Minimum Absorbed Energy Requirements (Threads for Grades NBO [All Types], R95, L80 [All Types}, C90, 795, P110, and Q126) . rename AContents. 10 " 2 13 14 416 6 "7 ca oz 3 cs cs ce cr ca co c0 cant ca2 ca3 cas cag Page Full-size Test Specimen Minimum Absorbed Energy Requirements (Pipe for Grades N&O [All Types], R95, 80, C90, T95, and P110) «nn . Full-size Test Specimen Minimum Absorbed Energy Requirements (Pipe for Grades C140 and 125) Electric-weld Flash Height and Trim (All Grades Except P110 and Q125) nnn Dimension Tolerances (Pipe OD) Integral Tubing) Dimension Tolerances (External Upset Tubing) ... Standard Mass Tolerances ‘Stamp Marking API Casing List (sizes, masses, wall thickness, grade, and applicable end: Dimension Tolerances (Upsé API Tubing List (sizes, masses, wall thickness, grade, and applicable end-finish) .. Process of Manufacture and Heat Treatment Chemical Composition, Mass Fraction (%) Tensile and Hardness Requirements... Elongation Table . Critical Thickness for Couplings with API Threads .. Acceptable Size Impact Specimens and Absorbed Energy Reduction Factor .. Hiorarchy of Test Specimen Orientation and Size. Charpy Impact Test Specimen Requirements for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material for Grades J55 and K58 ... Charpy Impact Test Specimen Requirements for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material for Grade L80 (All Types) Charpy Impact Test Specimen Requiromonts for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material for Grade C90 suru ling Stock, Coupling Charpy Impact Test Specimen Requirements for Couplings, Cou Material, Coupling Blanks, and Accessory Material for Grades N80 (All Types), R95, and TS5 104 ‘Charpy Impact Test Specimen Requirements for Couplings, Coupling Stock, Coupling ‘Material, Coupling Blanks, and Accessory Material for Grade P110 Charpy Impact Test Specimen Requirements for Couplings, Couy ‘Material, Coupling Blanks, and Accessory Material for Grade Q125 Transverse Charpy Absorbed Energy Requirements for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material Longitudinal Charpy Absorbed Energy Requirements for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material ‘Transverse Charpy Absorbed Energy Requirements for Pipe swuenumnnunne Longitudinal Charpy Absorbed Eneray Requirements for Pipe viContents. 20 2 on 23 c.24 6.25 0.26 ra oz cz 30 cat 32 6.33 C34 C35 6.36 a7 6.38 38 cao cat a2 C43 cas C45 car cas 48 cas 50 ‘Transverse impact Specimen Size Required for Quenched and Tempered Product .. Longitudinal Impact Specimen Size Required for Quenched and Tempered Product Distance between Plates for Electric.weld Flattening Tests Dimensions and Masses for Standard Casing and for Casing Threaded with API Round Thread and Buttress Thread snc A Dimensions and Masses for Standard Tubing and for Tubing Threaded with API Non-upset, External Upset, and Integral Tubing Connections 16 External Upset Tubing Dimensions for API Connections for Grades H40, J55, L80 (All Types), 19 95, NBO (All Types), C90, T95, and P110 Integral Tubing Connection Dimensions for API Connections for Grades H40, J55, L80 (All Types), R95, NBO (All Types), C90, and T95 Range Lengths .. ‘Standard Drift Size Alternative Drift Sizo Maximum Permissible Dopth of Linear Imperfections Upset Products—Maximum Permissible Depth of Imperfections. API Round-thread Casing Coupling—Dimensions, Tolerances, and Masses 1m API Buttress Thread Casing Coupling—Dimensions, Tolerances, and Masses API Non-upset Tubing Coupling—Dimensions, Tolerances, and Masses. API External-upset Tubing Coupling—Dimensions, Tolerances, and Masses ... Pormissible Depth of External Imperfections on Coupling «mmm 19 and Tubing. Frequency of Tensile Tests—Coupling Stock, Coupling Material, and Coupling Blanks ....129 Frequency of Tensile Testing—Pup Joints and Accessory Material Frequency of Hardness Testing ... Frequency of Flattening Tests . ‘Summary of NDE Methods for Seamless Pipe, Coupling Stock, Body of Welded Pipe, and. ‘Accessory Material (in accordance with 10.15.11) : Frequency of Tensile Tests—Ca: wnanene ABB ‘Acceptance (Inspection) Levels. Artificial Reference Indicators rmuuu Size of Stamp Markings Thread Type Markings Grade Color COdES eames Marking Requirements and Sequence Retention of Records .. SR 11.1—Distance between Plates for Flattening Tests «memContents. 82 ost C3 c54 css 56 csr C88 EA E2 BS Ea ES £6 e7 £8 £9 E10 BAZ EA3 E14 E15 E46 EA7 E18 E19 20 SR 12.2—Probability of Defective Product ‘SR 12.1—Inspection Lot Sample Sizes vs F Factor SR 16.1—Tranverse Impact Spocimen Size Required nnn SR 16.2—Longitudinal Impact Specimen Size Required SR 16.3—Acceptable Size impact Specimens and Absorbed Energy Reduction Factor uu 146 SR 16.4—Hierarchy of Test Specimen Orientation and Siz@ wenn SR 16.7—Test Temperature Reduction for Sub-size Specimens for Grades H40, J66, and K56 Only . Enhanced Loak Resistance SR 22-4 smimonenien senna AAT API Casing List (sizes, masses, wall thickness, grade, and applicable end-finish)... API Tubing List (sizes, masses, wall thickness, grade, and applicable end-finish) . Process of Manufacture and Heat Treatment Chemical Composition, Mass Fraction (%) . Tensile and Hardness Requirements Elongation Table .. Critical Thickness for Couplings with API Threads .. Acceptable Size Impact Specimens and Absorbed Energy Reduction Factor .. Hierarchy of Test Specimen Orientation and Size Charpy Impact Test Specimen Requirements for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material for Grades J55 and K5S .. Charpy Impact Test Specimen Requirements for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material for Grade L80 (All Types) .. Charpy impact Test Specimen Requirements for Couplings, Coupling Stock, Coupling ‘Material, Coupling Blanks, and Accessory Material for Grade C90 .. Charpy Impact Test Specimon Requiremonts for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material for Grades N8O Type 1, NB0Q, R95, and 1495 796 .. Elta Charpy Impact Test Specimen Requirements for Couplings, Coupling Stock, Coupling Material,Coupling Blanks, and Accessory Material for Grade PA10 cnn Charpy Impact Test Specimen Requirements for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material for Grade Q125 ‘Transverse Charpy Absorbed Energy Requirements for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material suewnnsomnsnsn Longitudinal Charpy Absorbed Energy Requirements for Couplings, Coupling Stock, Coupling Material, Coupling Blanks, and Accessory Material Transverse Charpy Absorbed Energy Requirements for Pipe . Longitudinal Charpy Absorbed Energy Requirements for Pipe ‘Transverse Impact Specimen Size Required for Quenched and Tempered ProductContents. Et B22 E23 E24 £25 5.26 eT 5.28 E29 £30 £31 £32 £33 6.34 E35 36 £37 5.38 £39 £40 eat E42 B43 Baa 5.45 5.46 EAT £48 E49 E50 Est Longitudinal Impact Specimen Size Required for Quenched and Tempered Product Distance between Plates for Electric-wold Flattening Tests Dimensions and Masses for Standard Casing and for Casing Threaded with API Round ‘Thread and Buttress Thread enon: et 05, Dimensions and Masses for Standard Tubing and for Tubing Threaded with API Non-upset, External Upset, and integral Tubing Connections 210 External Upset Tubing Dimensions for API Connections for Grades 140, J65, LB0 (All Types), 95, NBO (All Types), C90, T95, and P110 Integral Tubing Connection Dimensions for API Connections for Grades H40, J55, La0 (AIITypes), R95, NBO (All Types), C90, and TS Range Lengths .. ‘Standard Drift Size Alternative Drift Size... ‘Maximum Permissible Depth of Linear Imperfections Upset Products—Maximum Permissible Depth of Imperfections .. API Round-thread Casing Coupting—Dimensions, Tolerances, and Masses API Buttress Throad Casing Coupling—Dimensions, Tolerances, and Masses ‘API Non-upset Tubing Coupling—Dimensions, Tolerances, and Masses wa ‘API External-upset Tubing Goupling—Dimensions, Tolerances, and Masses Permissible Depth of Extemal Imperfections on Coupling (Dimensions in inches) . Frequency of Tensile Tests—Casing and Tubing .. Frequency of Tensile Tests—Coupling Stock, Coupling Material, and Coupling Blanks ...223 Frequency of Tensile Testing—Pup Joints and Accessory Material Frequency of Hardness Testing .... Frequency of Flattoning Tests Accessory Material (in accordance with 10.15.11) s..snunsn ‘Acceptance (Inspection) Levels Artificial Reference Indicators Size of Stamp Markings Grade Color Codes Thread Type Markings Marking Requirements and Sequence .. Retention of Records SR 11.1—Distance between Plates for Flattoning Tests SR 42.4—Inspection Lot Sample Sizes vs F FactorContents Pane E82 SR 12.2—Probability of Defective Product E53. SR 16.1—Transverse Impact Specimen Size Required E.54 SR 16,2—Longitudinal impact Specimen Size Required .. E55 SR 16.3—Acceptable Size Impact Specimens and Absorbed Energy Reduction Factor .. E56 SR 16.4—Hierarchy of Test Specimen Orientation and Size wun rn 240 E.57 SR 16.7—Test Temperature Reduction for Sub-size Specimens for Grades H40, J85, and KS5 Only « so 240 58 Enhanced Leak Resistance SR 22.1 .. GA Drift Constants sannnnnannnennin G.2__Plane-end Pipe Hydrostatic Test Factors by Grade and Siz H Reference Table for PSL-2 and PSL-3 Requirements wow 11 Axial impact Test Using 38 mm (1.5 in.) Diameter Steel Bar 12 Angular (45°) impact Test Using a Flat Stee! Plate Figures D1 Short Round-thread Casing and Coupling D2 Long Round-thread Casing and Coupling .. D3. Buttress-thread Casing and Coupling... DA Non-upset Tubing and Coupling s.essnnnn DS —_Extemal-upset Tubing and Coupling D.6 Rounded Nose for External-upset Tubing nnsnnnnone sn D7 Integrajoint Tubing ..... D8 Tensile Test Specimens D9 Example Location of Test Samples Romoved from Product wns ABT DAO Through-wall Hardness Test x. D.11__ Impact Test Specimen Orientation DAZ Charpy Specimen Dimensions enn D.A3_ Measuring Full-length Straightness .. D.14 Measuring End Straightness D.15 Examples of Marking Requirements and Sequence for Manufacturers and Threaders Using Section 11 and Table C.48 oF E.48 vsaneuniinsnnunsnininmnnnennnnsnnsnnsnn 164 DAG Reference indicators wnsn.nmsnn 64 DAT SR 13.1 Seal-ring Coupling and Non-metallic Ring for Round-thread Casing .. D.A8 SR 13.2 Seal-ring Coupling and Non-metallic Ring for Buttress-thread Casing .. DA9 SR 13.3 Seal-ring Coupling and Non-metallic Ring for Non-upsot Tubing esnnmsContents .20 pt pz D.23 D.24 Das 26 27 D2 b29 D.30 ‘SR 13.4-Seal-ring Coupling and Non-metallic Ring for Upset Tubing SR 16.4 170 Examples of Marking Requirements and Sequence for Manufacturers and Threaders using the API Monogram (Annexes A and F), Section 11, and Table C.48 or E.48 .. SR 22:4 Fiold-ond Paint Mark and Triangle Stamp (Stamp on Mill and Field Ends) ‘SR 22.2 Optional Tapered Bore along Inside Diameter Specifications Example of a 90° Hook-type Too! .. Axial Impact Test Apparatus. 45° Impact Test Apparatus ..... Stripping Test Apparatus .. Seal-ring Paint Band Example aw. Location of Hardness Impressions on DCB Specimen sun.Casing and Tubing 4 Scope 14 Coverage ‘This standard specifies the technical delivery conditions for steel pipes (casing, tubing, and pup joints), coupling stock, coupling material, and accessory material, and establishes requirements for tite procuct specication levels (PSL, PSL.2, and PSL-3}. The requirements for PSL-1 are the basis of ths standard. The requiremens thal define diferent levels of standard technical requirements for PSL-2 and PSL-3, for al grades (except H-40, | 80 9Cr, and C110) are provided For pipes covered by this standard, the sizes, masses, and wall thicknesses, as well as grades and applicable end- finishes, are provided, API SL pipe may be ordered as casing in accordance with API SCS, By agreement between the purchaser and manufacturer, this standard can also be applied to other plain-end pipe sizes and wall thicknesses. 4.2 Applicability—Connections ‘This standard is applicable tothe following connections in accordance with API 58: — hott round thread casing (SC) = long round thread casing (LC) buttress thread casing (BO) = hon-upset tubing (NU) — extemal upset tubing (EU) — integral tubing (W) For such connections, this standard specifies the technical delivery conditions for couplings and thread protection. Supplementary equrement hat cn optonaly be aeed upon or entanced ek esstance connections (.) are ‘This standard can also be applied to tubulars with connections net covered by API standards, This standard is not applicable to threading requirements. NOTE _ Dimensional requirements on vireads ane thread gauges, stipulations on gauging practice, gauge specications. as well as instruments and methods for inspection of threads, ere given in API 5B, 1.3 Applicability—Grades, ‘The products to which tis standard is applicable include the following grades: H40, J55, K55, NBO (all types), L80 (all types), C90, R95, T95, P110, C110, and 0126.2 ‘API Seecrwariow SCT 4.4 Supplementary Requirements ‘Supplementary requirements that may be specified by the purchaser or agreed between purchaser and manufacturer for non-destructive examination, fully machined coupling blanks, upset casing, electri-welded casing, tubing and pup joints, impact testing, seabring couplings, tensile testing, and sulfide stress cracking testing are provided. 1.5 Application of the API Monogram If the product is manufactured at a facility licensed by API and is intended to be supplied bearing the API Monogram, the requirements of Annex A apply 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 ‘addenda or errata) applies. API Recommended Practice 583, Thread Compounds for Casing, Tubing, Line Pipe, and Dril Stem Elements API Specification 5B, Threading, Gauging and Thread inspection of Casing, Tubing, and Line Pipe Threads ‘API Specification Q1, Quality Management System Requirements for Manufacturing Organizations for the Petroleum ‘and Natural Ges Industry API Technical Report 5C3, Calculating Performance Properties of Pipe Used as Casing or Tubing ASNT SNT-TC-1A, Recommended Practice No, SNT-TC-14: Non-Destructive Testing ASTM A370, Standard Test Methods and Definitions for Mechanical Testing of Stee! Products ASTM A751, Standard Test Methods, Practices, and Terminology for Chomical Analysis of Stoo! Products ASTM B117, Standard Practice for Operating Salt Spray (Fog) Apparatus ASTM E4, Standard Practices for Force Ventication of Testing Machines ASTM E10, Standard Test Mothod for Brinell Hardiness of Metallic Matorials ASTM E18, Standard Test Methods for Rockwell Hardness of Metallic Materials ASTM £23, Standard Test Methods for Notched Bar Impact Testing of Metalic Materials: ASTM £29, Standard Practice for Using Significant Digits in Test Data to Determine Conformance with Spectications ASTM E63, Standard Practice for Veniication and Classification of Extensometer Systems ASTM E112, Standard Tost Methods for Dotermiving Average Grain Size ASTM E213, Standard Practice for Ultrasonic Testing of Metal Pipe and Tubing ASTM E273, Standard Practice for Ultrasonic Tosting of the Weld Zone of Welded Pipe and Tubing ASTM E309, Standard Practice for Eddy-Current Examination of Stee! Tubular Products Using Magnetic SaturationCasino Tue ASTM E543, Standard Practice for Agencios Performing Nondestructive Testing ASTM £670, Standard Practice for Flux Leakage Examination of Ferromagnotic Stoo! Tubular Products ASTM E709, Standard Guide for Magnetic Particle Testing JADCISPE 11396, B.A. Dale, M.C. Moyer, TW, Sampson, A Test Program for the Evaluation of Oilfield Thread Protectors, IADC/SPE Dniling Conference, New Orfeans, LA, 20-23 February 1983 SO 643, Steols—Miorographic determination ofthe apparent grain size 180 6506-1, Metalic materials--Brinell hardness test~Part 1: Test method 180 6806-2, Metalic materels—Brinell hardness test—Pait 2: Venfeation and calibration of testing machines 180 6508-1, Metalic materais—Rockwollhardnoss tost—Part t: Test method (scales A, B, C, D, E, FG, H, K,N, T) 1SO 6508-2, Metalic materials—Rockwell hardness test—Part 2: Verification and calibration of testing machines (scales A, B, C, D, EF, GH, K,N, 7) 1S0 6892-1, Metallic materials— Tensile festing—Part 1. Method of test at room temperature ISO 7500-1, Metallic materials Verification of static uniaxial testing machines—Part 1. Tension/compression testing ‘machines—Venfication and calibration ofthe force-measuring system 1SO 8501-1, Preparation of stee! substrates before application of paints and related products—-Visual assessment of surface cleantiness—Part 1: Rust grades and preparation grades of uncoated steel substrates and of steel substrates ‘after overall removal of previous coatings ISO 9513, Metalic materiais—Caiibration of extensometers used in uniaxial testing 1S0 9712, Non-destructive testing—Qualifcation and certification of NDT personnel ISO 9769, Stee! and iron—Review of available mothods of analysis 1S0 10400, Petrotoum and natural gas industries—Equations and calculations forthe properties of casing, tubing il pipe and tne pipe used as casing or tubing ISO 10893-2, Steel-Non-destructive testing—Part 2: Automatic eddy current festing of seamioss and welded (excopt submerged arc-velded) stee! tubes for the detection of imperfections ISO 10893-3, Steo/-Non-destructive tosting—Part 3: Automatic full peripheral fx leakage testing of seamtess and welded (except submerged arc-welded) ferromagnetic steel tubes for the detection of longitudinal andior transversal imperfections ISO 10893-5, Steel-Non-destructive testing—Part 5° Magnetic particle inspection of seamless and welded ferromagnetic steo! tubes for the detection of surface imperfections 1S0 10893-10, Stoat-Non-destructive testing—Part 10: Automatic full peripheral ultrasonic testing of seamless and welded (except submerged arc-welded) steel tubes for the detection of longitudinal and/or transversal imperfections 1S0 1089-11, StoetNon-destructive testing—Part 11: Automatic ullrasonic testing of weld seam of welded steer tubes for the detection of longitudinal and/or transversal imperfections4 API Seecrtcation SG 1S0 11484, Stee! products—Employer’s qualification system for non-destructive testing (NDT) personnel ISO 13678, Petroleum and natural gas industries —Evaluation and testing of thread compounds for use with casing, tubing, line pipe and dail stem elements 1S0 8000-1, Quantities and units—Part 1: General MIL-STD-8106, Miltary Environmental Test Methods, 10 March 1975 NACE TMO0177-2016, Laboratory Testing of Motals for Resistance to Sulfide Stross Cracking and Stross Corrosion racking in HpS Environments 3. Terms, Definitions, Symbols, and Abbreviations 3.4 Terms and Definitions For the purposes ofthis document, the following terms and definitions apply. 3A4 accessory material ‘Seamless casing or tubing, or seamless thick-walled tubes or mechanical tubes, oF bar stock or hot forgings used for the manufacture of accessories. 34.2 API threads Threads as specified in API 5B. 34.3 are burn Localized point of surface melting caused by arcing between an electrode or ground (earth) and the product surface, NOTE Contact marks, which are intermitent marks adjacent to the weld line of EW pipe resulting from electrical contact ‘between the electrodes supplying the welding currant and the pipe surface, or coniact marks resulting from the use of 3 spectrometer for te detection of steel chemical composition, are not are bums. 344 carload Quantity of product loaded on a railway car for shipment from the product-making facilities, 348 casing Pipe run from the surface and intended to line the walls of a dried wel 346 connection Threaded assembly of tubular components. 3A7 controlled cooling Cooling fram an elevated temperature in a pre-determined manner to avold hardening, cracking or internal damage, or fo produce @ desired microstructure or mechanical properties.(casi no TUES ® 348 ‘coupling Internally threaded cylinder for joining two lengths of threaded pipe. 34.9 coupling blank Unthreaded material used to produce an individual coupling, 3.4.40 coupling material Thick-walled seamless tube used to manufacture coupling blanks. NOTE The main diference between coupting material and coupling slack is that coupling material has no mandatory NDE Inspection requirements (see 10.15}; see Section @ for mandatary NDE requirements for finished coupings. 34a coupling stock Coupling material that meets the coupling stock requirements. 3.4.42 defect Imperfection of sufficient magnitude to warrant rejection ofthe product based on criteria defined in this standard, 3.4.43 electric-welded pipe Pipe having one longitudinal seam formed by electric-resistance or electic-induction welding, without the addition of filer metal, wherein the edges to be welded are mechanically pressed together and the heat for welding is generated by the resistance lo flow of electric currant, 34.44 full-body Complete cross-section of the produc. 34.45 fullength Complete length of the product (end-to-end). 3.4.46 handling tight Suffciently tight so that the coupling cannot be removed except by the use of @ wrench. 34.47 heat Metal produced by a single cycle of a batch melting process, 34.18 heat analysis Chemical analysis representative of a heat as reported by the metal producer.8 API Srecrcarion 6CT 34.19 imperfection Discontinuity in the product wall or on the product surface that can be detected by a NDE method included in this standard. NOTE See Table C.42 oF Table E42 3.4.20 inspection Process of measuring, examining, testing, gauging or otherwise comparing @ unit of product with the applicable requirements 34.21 inspection lot fot Definite quantity of product manufactured under conditions that are considered uniform for the attribute to be inspected, ‘One of more units of product selected from an inspection jot to represent that inspection fot. 3.4.23 inspection lot size ‘Number of units of product in an inspection fot 3.4.26 Interrupted quenching ‘Quenching in which the product being quenched is removed from the quenching medium while the product is at 2 temperature substantially higher than that of the quenching medium. 3.4.25 label 1 Dimensionless designation for the size or specified outside diameter that may be used when ordering pipe, 3.4.26 label 2 Dimensioniess designation for the mass per unit length that may be used when ordering pipe. 34.27 length Piece of pipe that may be plain-end, threaded, or threaded and coupled, that is in accordance with the range requirements in this standard. NOTE See Table ©27 or Table E.27, 3.4.28 linear imperfection Imperfection which includes, but is not limited to, seams, laps, cracks, plug scores, cuts and gouges. NOTE See APIST1Case ano Tua 7 3.4.29 manufacturer (One or more of the following, depending on the context: pipe mil, processor, threader; coupling manufacturer, pup joint manufacturer; accessory manufacturer. NOTE See Section 14 3.4.30 non-linear imperfection Imperfection which includes, but is not limited to, pits and round-bottom cle stamping. NOTE See Apistt 34.31 pipe Casing, tubing and pup joints 3s 2 group. 34.32 pipe mill Fitm, company or corporation that operates plpe-making facilis. 3.1.33 plain-ond pipe Pipe, either upset or nor-upset, fumished without threads, 34.34 processor Firm, company or corporation that operates facilties capable of heat-treating products made by a pipe mil, 3.1.35 product Pine, coupling, coupling stock, coupling material, coupling blank or accessory materiel, ether individually or collectively as applicable. 3.1.36 product test block ‘Test block removed from the product, the tensile test specimen or through-wall hardness test ring. 34.37 up joint Casing or tubing of length shorter than Range 1 NOTE See Table C.27 or Table E27, 3.4.38 Pup joint material Casing or tubing, or thick-wall tubes or mechanical tubes, or bar stock used for the manufacture of pup joints, 34.39 purchaser Party responsible for the definition of requirements for a product order and payment for that order.8 ‘API Seccrcarion SCT 3.4.40 {quench crack Crack in stoo! resulting trom stresses produced during the transformation from austenite to martensite, NOTE This transformation is accompanied by an increase in volume, 3441 ‘seamless pipe ‘Wrought steel tubular product made without a weld seam. NOTE It ig manufactured by hotworking steel, and if necessary, by subsequently cold-working or heat-veating, or a combination ofthese operations, fo produce the desired shape, dimensions and properties. 3.4.42 skelp Hot-rolled steel strip used for manufacturing EW pipe. end-finish Threads with thread form and features, manufacturing specifications, dimensions, connection make-up and performance properties which are beyond the scope of this standard 3444 standardized tost block Test block, certified to a mean hardness number, used for the verification of the performance of hardness testing machines. 3.4.48 thread protector Cap or insert used to protect threads and seals during handling, transportation and storage. 3.4.46 ‘tubing Pipe placed in a well to produce or inject fuids. 34.47 upper critical temperature ‘Temperature at which austenite begins to transform to ferrite during cooling, 3.2. Symbols As ‘upper ertical temperature 8 maximum bearing face diameter o Charpy V-notch impact test minimum absorbed energy D specified outside diameter for pipe a calculated inside diameter k Constant used in the calculation of elongation Ss. ‘minimum acceptable result of the NACE TM0177-2016 Method B test ! specified wall thickness w specified outside diameter for reaular couplings with API threads w, specified outside diameter of special clearance couplings with API threads(Grama aio Tun 8 YS ae specified maximum yiold strength YSuon specified minimum yield strength 3.3 Abbreviations 8c APB buttress thread casing connection cs coupling stock own Charpy Venotch EMI electromagnetic inspection EU APL5B extemal upset tubing connection ew electiic-welded process EW Brinell hardness, when testing witha tungsten carbide ball HRC Rockwell hardness C-scale uu ‘API 58 integret tubing connection uo ‘APB long round thread casing connection N {heat-reat process) fultbody fulHlength nocmalized Nat normalized and tempered NDE non-destructive examination NU API SB non-upset tubing connection PE unthreaded pipe elther upset or non-upset PSL product specification level a quenched and tempered RC regular coupling s seamless process (when not referencing the chemical element sulfur) sco special clearance coupling ssc sulfide stress cracking sc API 5B short round thread casing connection sR supplementary requirement SF special end finishing Tac threaded and coupled ur uatrasonie testing 4 Conformance 4.1 References to Annexes For addtional requirements or information concemming the manufacturing of casing and tubing, as referenced, see the following for: — inspections by the purchaser, see Annex 8 (normative); product tables in SI units, see Annex G (normative): — product figures in SI and USC units, see Annex D (normative):—_ product tables in USC units, see Annex E (normative); — API Monogram licensee additional marking information, see Annex F (informative); — conversion procedures for USC to SI units, see Annex G (informative); product specification levels (PSL), see Annex H (normative) requirements for thead protector design validation, see Annex | (normative); — requirement summary for PSLs, see Annex J (informative) — product supplementary requirements, see Annex K (informative) 42. Extended Scope ‘The folowing are extensions that are snecific to some of the scope provisions. — The requirements that define different levels of standard technical requirements for PSL-2 and PSL-3, for all grades except H-40, L-80 9Cr, and C110, are contained in Annex H. Supplementary requirements that can optionally be agreed upon for enhanced leak resistance connections (LC) are given in K.10 (SR 22}. — For casing sizes larger than Label :4 '/p but smaller than Label 1: 10 2 can be specified by the purchaser to be Used in tubing service, see Tables C.1, C.23, C.27, and C.28 or Tables E.1, £.23, £.27, and E.28. 43, Dual Referencing In the interests of worldwide application of this standard, the API Subcommittee on Tubular Goods (SC) has decided, after detailed technical analysis, that certain documents listed in Section 2 and prepared by API SC5 or other technical committees are interchangeable in the context ofthe relevant requirement with the relevant document prepared by the Intemational Organization for Standardization (ISO) or the American Society for Testing and Materials (ASTM). These latter documents are cited in the running text following the API reference and preceded by “or” for example, “API XXXX or !SO YYYY" or “iSO YYYY or ASTM ZZZ2". Application of an alternative document ited in this manner may lead to technical results different from the use of the preceding AP! reference. However, both resutts are acceptable and these documents are thus considered interchangeable in practice. 4.4. Units of Measurement {In this standard, data are expressed in bath the international System (SI) of units and the United States Customary (USC) system of units. For a specific order item, it is intended that only ona system of units be used, without combining data expressed in the other system, Products manufactured to specifications expressed in either of these unit systems shall be considered equivalent and totally interchangeable. Consequently, compliance with the requirements of this standard as expressed in one system provides compliance with requirements expressed in the other system, Inthe text, data in SI units are fotlowed by data in USC units in parentheses.(GrsiN@ ND Tua ” 5. Information to be Supplied by the Purchaser 5.1 Grades C90, T95, and C110 The purchaser should refer to NACE MRO176/ISO 15155-1 and ISO 15156-2 for guidance on the usage of Grades 680, T95, and C110, Particular attention should be given to the application of Grade C110 in NACE MROT75/ISO 15186-1 and ISO 15156-2 SSC Regions 2 or 3, a6 this materal is not sutable fer all sour (hydrogen sulfde- containing) service applications. NOTE The SSC test is for qualty contol purposes only and does not qualify the material for any specific sour service ‘application: tis the product user responsbilty fo ensure tha the product is sutable forthe intended application 5.2. Casing 8.2.4 When inguiting oF placing orders for pipe manufactured in accordance with this standard, the purchaser shall specify the folowing according to Table 1 Table 1—Purchaser Supplied Information (Casing) Reference Standard (Quantity Type of pipe or couplings ating Threaded or plain-end 8.12.1, Table C1 or Table E.1 1812.2, 8.12.8, Teble C.1 or Table E.1 1812.2, Table C.4 or Table E.1 26, Tables C.1, C.93 or Tables £1, 6.33, a6 Table C.1 or Table E.1 Table C.1 oF Table E.1 Tables 0.1, C4 or Tables E.1, Ed 8.6, Table C.27 or Table E.27 6.1, Table C.3 oF Table E.3 766 [Type of connection: $C, LC ar BC, or ether connection With orwithout couplings ‘Special clearance couplings BC ‘Special clearance couplings with special bevel BC [Label 1 or specified outside diameter Label 2 or specified mass or wall thickness JGrade and type where applicable Range length or length of pup joints ‘Seamless or electric-welded Critica thickness for special end-finish couplings, stock, or blanks Delivery date and shipping instructions inspection by purchaser [Annex B.% ‘APL SocowcATION SCT 5.2.2 The purchaser shall also state in the purchase agreement the requirements, where applicable, concerning the following stipulations, which are at the purchaser's option according to Table 2: Table 2—Purchaser Supplied Agreement Optional Requirements (Casing) Requirement Reference Feat treatment 62, Teble 6.3 or Table ES Lower alternative impact test temperature 737 Impact testing for Grades N&O (all types), LBO (all types), R95, —_—|7.5.3, K.9 (SR 16) [C80 795, F110 Impact testing for Grades H40, 55, KES |75:4,K9 (9R 16) Sulfide stress cracking test methods) Grades C90 and T95 j7.14, 10.10 Sulfide stress cracking test method(s) and test solution(s) 7.44, 10.10, K12 (SR 39) Grade C110 Casing jointers SC and LC 87 Alternative driting requirements 8.10 Casing with couplings detached 8.14 [Coupling make-up (other than power-ght) 814 [Coupling grade 92 Sealing couplings 9.8, K8 (SR 19) Heat and supplementary analyses 103 Additional markings " Pipe coatings tat Product Specification Level (PSL-2 or PSL-3) Annex H Alternative grades or heat treatments of counting 92 Combination coupings 97.Ccasmig ano Tua 5.2.3 The following may be agreed between purchaser and manufacturer according to Table 3: Table 3—Purchaser/Manufacturer Agreomont (Casing) Requrement I Reference Upset—Grade C110 161 Cold rotary straightening—Grade Q125. jo36 Stottial tena testing 7.24, KA (R98) ‘Statistical impact testing 7.3.8, K.7 (SR 12) Impact of nor-neatreated produc 75.1,K9(8R 16) ternative hardenabity requirement for products with wall tricks of 30 mm (1.181 in) orlarger 7102 ‘Thread and storage compound 4 ‘Waiving NDE of Grades H40, J55, K55 couplings 9.143 Couping tread surface treatment Grade 0125 only ed Reduced section tensile specimens Grade 0125 1048 Adetionl hardness testing 4082 /Atomatve hydrostatic teat pressures 0.123 Plin-ond Grede 125 casing hydrostatic testing 022 Marking requirements in Thread protectors | 12.2 Include coupling certication wth pipe cotfication 1338) Couping banks Grade 0125 ony 84.2, K4 6R9) Upset casing Grade 0126 only K5 (SR 10) Electc-weld casing and pup joints Grades H40,J85, KSB, NBO (attypes), L80 Type 1, ROS 13 (SR 40) Electioweld easing and pup joints Grades P110 and Q125 6.1, (SR 11) AteratveF factor for statistical impact testing 72 (SR 122) ‘Special size and wall thickness plain-end pipe 8.2 [Enhanced leak resistance LC connections K.10 (SR 22) 214 AI SpecriceTON SCT 5.3. Tubing 5.34 When inquiring or placing orders for pipe manufactured in accordance with this standard, the purchaser shall ‘specify the following according fo Table 4: Table 4—Purchaser Supplied Information (Tubing) Requirement Reference Siandard APLSCT Quantity Type of pipe or couplings Tubing: j Non-upset, externat-upset or integral joint |Table €.2 or Table E.2 Threaded, plain-end, or other connection 12 \With oF without couplings j8.12 Regular couplings with special bevel NU, EU 99, Tables C.24, C.34 and C.96 jor fables €.24, £34 and E.35 ‘Special clearance couplings—EU 96, Tables ©.24, 0.95 or Tables |E.24 and 6.35 Label tor specified outside diameter Table C.2 or Table E.2 Label 2 or specified mass or wall thickness Table ©.2 or Table E.2 Grade and type, where appicable Table C.2 or Table £.2, Table CA or Table E.4 Range length or ength of pup joints 8.6, Table ©.27 or Table E.27 ‘Seamless or electne-welded 6.1, Table ©.3 oF Table €.3 tical thicknass for special end-fnish couplings 746 Delivery date end shipping instructions Inspection by purchaser Annex 8(xsi ano Tuan 6 5.3.2 The purchaser shall also state in the purchase agreement the requirements, where applicable, concerning the following stipulations, which are at the purchaser's option according to Table 5 Table 5—Purchaser Supplied Agreement Optional Requirements (Tubing) Requirement Reference Ty Heal treaiment 2, Table C3 or Table E |Lower altemative impact test temperature [737 nae testing for Grades N00 (ype) LOD tS), ROE. C52 9 eR 1) Impact testing for Grades 440, 165 75.1, K9 (SR 16) Sulfide stress cracking test method{s) Grades C90 and 795 7.14, 10.10 Alternative drift requirements a0 Extended length upset ats Rounded nose for EU 8.123 [Coupling make-up (other than power-tight) B14 Tubing with couplings detached 8.14 Coupling grade 92 |Altemative grades or heat treatments of coupling 92 |Combination couplings a7 Sealing couplings 9.8, K8 (SR 13) Heat and supplementary analyses 103 Additional hardness testing 1062 Additonal markings " Pipe coatings faa Product Specification Level (PSL-2 oF PSL-3) annex16 API Seccrication SCT 5.3.3. The following may be agreed between purchaser and manufacturer according to Table 6: ‘Table 6—Purchaser/Manufacturer Agreement (Tubing) Reference 724, KAT GR 38) 7.38, K.7 (SR 12) Requirement Statistical tensile test ‘Statistical impact testing Impact testing of non-heat-treated product 7.54, K.9 (SR 16) ternative hardenabilty requirement for products with @ wall 7.402 thickness of 30 mn (1.181 in.) oF larges—C110 Thread and storage compound ets ] Waiving NDE of Grades H40, J55, KS6 couplings 9.113 Aduitional hardness testing 1082 10.123 | Atornative hydrostatic test pressures. Non-destructive examination 10.15, K2(SR1),K3 (GR2),KS |(SR 10), and K6 (SR 11) Marking requirements in Thread protectors 422 Include coupling ceniication with pipe certification 1339) |Electrc-weld tubing and pup joints—Grades H40, J55, K55, NO (all _K.13 (SR 40) types), L80 Type *, R95 Electric-weld tubing and pup joints—Grade P110, K6 (SR 11) Special size and wall thickness 82 (Casing used for tubing 8.2, Table C.27 ot Table €.27 5.4 Coupling Stock, Coupling Material, and Accessory Material 5.4.1 When inquiring oF placing orders for coupling stock, coupling material or accessory material manufactured in accordance with this standard, the purchaser shall specify the following according to Table 7: 5.4.2 The purchaser shall also stale in the purchase agreement the requirements, where applicable, concerning the following stipulations, which are at the purchaser's aption according (o Table 8:(Gaara aio Tuan Table 7—Purchaser Supplied Information (Coupling Stock and Material and Accessory Material) Requirement Reference [Standard ‘API BCT Quantity Kind of product: coupling stock, coupling material or accessory material Sulfide stress cracking test method(s}—Grades C90 and | 44 49,19 195, Sudo ress cracking test methods) and test son's) 744, 19.40, 12 (8R 38) Outside diameter and tolerances a2 Wall thickness and tolerances 82 Staighiness tolerance 392 Length 86 [Grade and type, where applicable Tables C.3, C.4 or Tables E.3, £4 Impact requirements or critical thickness 74 Inspection by purchaser ‘Annex 8 Critical thickness for special end-finish accessory material 7.6.6 Wal thickness verification of special end-fnish accessory material aes Delivery date and shipping instructions ‘Table &—Purchaser Supplied Agreement Optional Requirements (Coupling Stock and Material, and Accessory Material) Requirement I Reference Heat treatment (62, Table C.2 or Table ES 17.24, K-41 (SR 38) Statistical tensile testing tsical imped esting 738,K7 GR 12) act testing — 17.4, 7.6, K.8 (SR 16) Atemative hardenabilly requirement for products witha wall 49.9 thickness of 80 mm (1-181 in) or larger Heat and supplementary anaiysos MAddional markings Product Specification Level (PSL-2 or PSL-3)API Secoricatiow 6CT 6 Process of Manufacture 61 General ‘The product furnished to this standard shall be made to a fine-grain practice, Steel made to a fine-grain practice Contains one or more grain-efining elements, such as aluminium, niobium (columbium). vanadium of titanium in amounts intended to result in the steel having a fine austenitic grain size Pipe fumished to this standard shall be made by the seamless or electric-weld process as shown in Table C.3 or Table E.3 and as specified in the purchase agreement. Pup joints shall be mado from the materials listed in 4.1.37. Material for couplings, coupling stock, and coupling material shall be manufactured by the seamless process. Cold- drawn tubular products without appropriate heat treatment are not acceptable. Accessory material for casing and tubing shall be seamless unless otherwise specified in the purchase agreement Electriowwelded Grade P110 pipe and Grade Q125 casing shall be provided only when the supplementary requirement in K.8 (SR 11) is specified in the purchase agreement. Grade C110 product shall not be upset unless agreed between the purchaser and the manufacturer Grade 125 upset casing shall be provided only when the supplementary requirement in K.6 (SR 10) is specified in the purchase agreement 6.2 Heat Treatment 6.2.4 General Product shall be heat-treated in accordance with a documented procedure as stipulated in Table C.3 or Table E.3 for the particular grade and type specified in the purchase agreement, Product requiring heat treatment shall be heat. treated full-body, full-length. When heat-treated, upset product shall be heattreated full-body, ful-length after upsetting, Individually heat-treated coupling blanks are acceptable. All pipe processed through a hot-stretch mill (.e. stretchrreduced) shall be considered normalized, provided the exit temperature is above the upper critical temperature (4) for the steel being processed and the pipe is air-cooled. The weld seam of electric-welded pipe shall be heat-treated after welding to a minimum temperature of 540 °C (1000 “F) of processed in such a manner that no untempered martensite remains For the purposes of this standard, in addition to the terms and definitions given in Section 3, the terms and definitions siven in ASTM A941 for heat treatment operations also apply. 6.2.2 Grades J55, K55, N80 (All Types), and R95 For grades J65 and KSS products, heat treatment is not mandatory. A heat treatment, consistent with Table C.3 footnote b or Table E.3 footnote b, shall be applied if specified in the purchase agreement or may be applied at the manufacturer's option, Grade N80 Type 1 product shall be normalized or, at the manufacturer's option, shail be normalized and tempered. Grade NB0Q product shal be quenched and tempered. Grade R95 shall be quenched and tempered, ‘Additional requirements for PSL-2 and PSL-9 products are specified in Annex H,Grows no Tuan 19 6.23 Grades L80 (All Types), C90, T95, and C110 When requested by the purchaser, the manufacturer shall produce evidence to show that the tempering practice will result in the pipe attaining the minimum tempering temperature. Grade L80 13Cr may be subject to embritiement when tempered below 620 °C (1150 °F). When all product meets the requirements in 7.3, 7.4.5, 75.3, and 10,7, no further precautions are necessary. NOTE —Inthis standard, whan the symbol LBO is used alone, it covers Grades L80 Type 1, L20 GCr, and LO 13Cr 6.3. Straightening 6.3.4 Grades H40, J55, K55, N80 (All Types), and P110 No specific methods are required. ‘Additional requirements for PSL-2 and PSL-3 products are specified in Annex H. 6.3.2 Grade ROS Grade R96 product shall be subjected to no tensile or expansion cold-working, except that which is incidental to normal straightening operations, and to no more than 3% compressive cold-working, after the final tempering operation. Additional requirements for PSL-2 and PSL-3 products are specified in Annex H. 6.3.3 Grade LB0 Grade L80 shall not be subjected to cold working atter the final heat treatment, except for that which is incidental to normal straightening operations. Grade L80 product rotary-straightened at temperatures less than 480 °C (900 °F) shail not contain roll marks that exceed the maximum hardness specified in Table C.6 or Table E.5; however: 2) ‘oll marks that are not detectable by feel and have no measurable surface deformation are acceptable without futher evaluation; b) ‘oll marks that are not more severe than those previously evaluated and verified by the manufacturer in a documented procedure not to exceed the maximum hardness specified in Table C.6 of Table E.5, are acceptable without further evaluation; (©) product with severe rol! marks shall be either rejected or stress-relieved at 480 °C (900 *F) minimum, 6.3.4 Grades C90 and T95 Grades C90 and 795 product may be subjected to cold rotary-straightening if, subsequent to the cold rotary- straightening operation, the pipe is heated to a minimum temperature of 480 °C (900 °F) for stress-relieving, When eoessary, ight gag-straightening for Grades C90 and T95 shall be permitted Additional requirements for PSL-2 and PSL-3 products are specified in Annex H. 63.5 Grade C110 Product, when necessary, shall be either cold rotary straightened followed by stress rellef at 90 °C to 55 °C (50 °F to 100 °F) below the final specified tempering temperature, or hot rotary straightened with an exit temperature not more2 API SocOIF ATION SCT than 185 °C (900 “F) below the final specified tempering temperature, When necessary, light gag straightening shall be permitted. 6.3.6 Grade a125 Gag-press straightening or hot rotary-straightening at 400 °C (750 °F) minimum at the end of rotary-straightening is acceptable (Unless a higher minimum temperature is specified in the purchase agreement). If hot roiary-straightening is not possible, the product may be cold rotary-straightened provided itis then siress-relieved at 510 °C (960 °F) or higher, Product may be cold rotary-straightened without subsequent stress-relieving only by agreement between purchaser and manufacturer 6.4 Traceability 64.1 General ‘The manufacturer shall establish and follow procedures for maintaining heat or lot identity, or both, until alt required heat or iot tests, oF both, are performed and conformance with specification requirements has been shown, For C110, Q125, and PSL-2 products, the procedures shall provide a means of tracing the product to the proper heat and lot, and to ail applicable chemical and mechanical test results, 64.2 Serialization of Grades C90, T95, C110, and Q125 ‘The serial number shall be marked on products as specified below. It is the responsibilty of the manufacturer 10 ‘maintain the identification of material until iis received by the purchaser. Each length of pipe shall be uniquely numbered so that test data can be related to individual lengths. In addition, ‘when supplementary requirement K.7 (SR 12) is specified, the number shall identify the sequence in which the lengths were tempered in order to allow retest in accordance with K.7.3 (SR 12.3), Each length of coupling stock, coupling material, coupling blank, pup Joint, or accessory material shall be uniquely numbered so that test data can be related to individual lengths. When cut from material that has been heat-treated full-body, fulblength, the pieces shall be marked with the serial number of the ful-lenath piece. When heat-reated in ‘coupling blank or individual lengths, each heat-treat lot (see 10.2.3) shall be uniquely numbered. Additionally, when ‘coupling blanks, or pup joints or accessory material in individual lengths, are heat-treated as a unit in a continuous pprocess-run, the pieces within the lot shal be sequentially numbered in the order in which they are heat-treated, 65 Processes Requiring Validation Final operations performed during product manufacturing that affect attribute compliance as required in this standard (except chemical compostton and dimensions) shall have their processes validated. ‘Those processes requiring validation are: 2) for seamless, as-rolled product: final reheating practice and hot sizing or stratch-reducing, If applicable, upsetting, cold-working; b) for seamless, heat-treated product: heat treatment; ©) or electric-welded, as-rolled product: sizing and seam welding. If applicable, seam heat treatment and upsetting: and 4d) ‘for electrc-welded, heat-ireated product: seam welding and full-body, full-length heat treatment.Gastie ano Tuna 2 7 Material Requirements 7.4 Chemical Composition Product shail conform fo the requirements specified in Table C.4 or Table E.4 forthe grade and type specif. For Grade C110 the manufacturer shall inform the purchaser at the time of inquity of the minimum and maximum ‘concentrations for all elements intentionally addad to each heal, regardless of the purpose of the addition, Additional requirements for PSL-2 and PSL-3 products are specified in Annex H. 7.2. Tensile Properties 7.2.4 General Product shall conform to the tensile requirements specified in Table C.5 or Table E.6. The tensile properties of upset casing and tubing, except elongation of the upset ends, shall comply with the requirements given for the pipe body. In case of dispute, the properties (except elongation) of the upset shall be 10 mm) transverse test specimens is not possible, the largast possible sub-size transverse test specimen listed in Table C.8 or Table €.8 shall be used. When it is not possibie (or allowed in accordance with 7.3.6) to test using any of these transverse test epecimens, the largest possible longitudinal test specimen listed in Table C.8 or Table E.8 shall be used. When testing EW pipe using a transverse test specimen, the weld line shall be positioned at the notch in the Charpy test specimen, When the outside diameter or wall thickness precludes the machining of longitudinal impact test specimens "/,-size or larger, the product need not be tested; however, the manufacturer shall use a chemical composition and processing that is documented and demonstrated to result in impact-energy absorption which meets or exceeds the minimum specified requirement‘Cass ano Tuan 2 7.3.4 Hierarchy of Test Specimens The hierarchy of test specimen oriontation and size is specified in Table C.9 or Table E.9. 7.3.8 Altemative Size Impact Test Specimens At the manufacturer's option, impact test specimens of an alternative size, sted in Table C.8 or Table E.B, may be Used in leu of the minimum size specified in Tables C.10 to C.18, 6.20, and C.21, and Tables E.10 to E.15, £.20, and E21. However, the alternative test specimen selected shall be higher on the hierarchy table (Table C.9 or Table E.9) than the specified size, and the absorbed energy requirement shall be adjusted consistent with the orientation and size of the impact specimen, 7.3.6 Sub-size Test Specimens ‘The minimum CVN absorbed energy requirement for sub-size test specimens shall be that specified for a full size test specimen multiplied by the reduction factor in Table C.8 or Table E.8; hovever, in no event shall a sub-size test specimen be used ifthe reduced absorbed-energy requirement is less than 11 J (8 ftlb 7.3.7 Test Temperature ‘The test temperature shall be 0 °C (32 'F) for all grades except Grades J55 and K55. Grades J55 and KES stall be tested at 21 °C (70°F), An alternative lower test temperature may be specified in the purchase agreement or selected by the manufacturer for any grade. The tolerance on the tast temperature shall be 3 °C (5 °F) Arreduction in test temperature may be required for Grades JS6 and K55 when sub-size specimens are used. The ‘amount of test-temperature reduction depends on the critical thickness of the connection and the size of the impact test specimen. The test temperature reduction specified in Table C. 10 or Table E10 shall be used when applicable, 7.3.8 Statistical Impact Testing '8y agreement between purchaser and manutacturer, the supplementary requirements for sttiscal impact testing in KT (SR 12) shall apply. 7.3.9. Reference Information API 5C3 or ISO 10400 includes reference information on fracture mechanics and equations and tables used in preparing impact requirements. 7.4 Charpy V-notch—Absorbed Energy Requirements for Coupling Stock, Coupling Material, Coupling Blanks, and Couplings 744 General Coupling stock, coupling material and coupling blanks suitable for more than one type of connection may be qualified by @ test to demonstrate conformance to the most stringent requirements, The tast specimen orientation and size shall be the highest possible listed on the hierarchy in Table C.9 or Table E.9 and the absorbed energy requirement shall equal or exceed the applicable requirements. 7.4.2 Grade H40 Theve is no mandatory CVN impact energy requirement, NOTE See K.9 (SR 16) fr optional CVN requirements