1、Designation: F1007 18 An American National StandardStandard Specification forPipeline Expansion Joints of the Packed Slip Type forMarine Application1This standard is issued under the fixed designation F1007; the number immediately following the designation indicates the year oforiginal adoption or,
2、in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This specification covers the design, manufacturing, andtesting of packed slip-ty
3、pe expansion joints used in pipelinesfor accommodating axial thermal growth or contraction fromthe pipeline carrying fluid.1.2 The values stated in inch-pound units are to be regardedas standard. The values given in parentheses are mathematicalconversions to SI units that are provided for informatio
4、n onlyand are not considered standard.1.3 This international standard was developed in accor-dance with internationally recognized principles on standard-ization established in the Decision on Principles for theDevelopment of International Standards, Guides and Recom-mendations issued by the World T
5、rade Organization TechnicalBarriers to Trade (TBT) Committee.2. Referenced Documents2.1 ASTM Standards:2A53/A53M Specification for Pipe, Steel, Black and Hot-Dipped, Zinc-Coated, Welded and SeamlessA216/A216M Specification for Steel Castings, Carbon, Suit-able for Fusion Welding, for High-Temperatur
6、e ServiceA285/A285M Specification for Pressure Vessel Plates, Car-bon Steel, Low- and Intermediate-Tensile StrengthB650 Specification for Electrodeposited Engineering Chro-mium Coatings on Ferrous Substrates2.2 ANSI Standards:3B16.5 Steel Pipe Flanges and Flanged FittingsB16.25 Buttwelding EndsB31.1
7、 Power Piping2.3 ASME Standards:4Section V Nondestructive ExaminationSection VIII, Division 1 Pressure VesselsSection IX Welding and Brazing Qualifications2.4 AISI Standard:C-1018 Carbon Steel53. Classification3.1 The expansion joints shall be of the following types,styles, classes, and forms:3.1.1
8、Type 1Injectable semiplastic packing type, designedfor injecting packing under full-line pressure.3.1.2 Style IInternally externally guided with guides inte-gral with stuffing box.3.1.3 Style IIInternally externally guided with guidesintegral with stuffing box and with low-friction inserts at thegui
9、de surfaces.3.1.4 Class ISingle joint, single slip.3.1.5 Class IIDouble joint, double slip.3.1.6 Form IWeld end.3.1.7 Form IIFlanged end.3.1.8 Form IIIOther.4. Ordering Information4.1 Expansion joints shall meet all the requirements of thelatest issue of this specification. Where possible, the expan
10、sionjoint shall be the manufacturers standard commercial product.Additional or superior features that are not prohibited by thisspecification but which are a part of the manufacturersstandard product, shall be included with the expansion jointbeing offered. A standard commercial product is a product
11、 thathas been sold or is currently being offered for sale on thecommercial market through advertisements or manufacturerscatalogs, or brochures, and represents the latest productionmodel.4.2 Purchase order or inquiry for expansion joints to thisspecification shall specify the following:1This specifi
12、cation is under the jurisdiction of Committee F25 on Ships andMarine Technology and is the direct responsibility of Subcommittee F25.11 onMachinery and Piping Systems.Current edition approved May 1, 2018. Published May 2018. Originallyapproved in 1986. Last previous edition approved in 2014 as F1007
13、 86 (2014).DOI: 10.1520/F1007-18.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3Available from American Nat
14、ional Standards Institute (ANSI), 25 W. 43rd St.,4th Floor, New York, NY 10036, http:/www.ansi.org.4Available from American Society of Mechanical Engineers (ASME), ASMEInternational Headquarters, Two Park Ave., New York, NY 10016-5990, http:/www.asme.org.5Available from American Iron and Steel Insti
15、tute (AISI), 25 MassachusettsAve., NW, Suite 800, Washington, DC 20001, http:/www.steel.org.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United StatesThis international standard was developed in accordance with internationally recognized princip
16、les on standardization established in the Decision on Principles for theDevelopment of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.14.2.1 Title, number, and latest revision of this specification.4.2.2 Style, c
17、lass, and form required.4.2.3 Materials, other than standard as specified (see Section8).4.2.4 Service conditions shall specify the following:4.2.4.1 Maximum and minimum operating temperature(F).4.2.4.2 Maximum operating pressure (psig).4.2.4.3 Fluid handled.4.2.4.4 Corrosive conditions, if applicab
18、le.4.2.5 Total axial expansion or contraction.4.2.6 ANSI pressure class, facing, and drilling for flangedend joint and pipe schedule or wall thickness of ends for weldend joint.4.2.7 If base is required for support or main anchor on ClassI expansion joint.4.2.8 Drain connection, if required.4.2.9 Se
19、rvice connection if required, noting location andtype of connection.4.2.10 Slip protectors, if required.4.2.11 Adjustment rods for field extension or compressionof the slip if required.4.2.12 If hot-dip galvanizing of parts is required.4.2.13 Spare parts, accessories, and special tools, if re-quired
20、.4.2.14 Hydrostatic testing and test pressure, if required.4.2.15 Radiographic or other nondestructive testing of weldjoints if required.5. Materials and Manufacture5.1 Materials:5.1.1 Materials of construction shall conform to the require-ments as specified in this specification (see Section 8) and
21、 shallbe new and free from defects that would adversely affect theperformance of individual components or assemblies.5.1.2 As specified in this specification and as required, theexpansion joint shall be provided with flanged or welded endconnections, limit stops, stuffing boxes with integral guides,
22、base, drain connection, service connection, slip protectors, andadjustment rods.5.2 Manufacture:5.2.1 GeneralUnless otherwise required by thisspecification, the manufacturers standard shop practices forthe fabrication of the expansion joint is acceptable, providedthese practices conform to the requi
23、rements and recommenda-tions of this specification.5.2.2 All WeldingWelding procedure qualifications,welder performance qualification, welding materials, preheat,and postweld heat treatment if required, shall be in accordancewith ANSI B31.1 and ASME Code Section IX.5.2.3 IdentificationEach completed
24、 expansion joint shallhave a name plate made from a corrosion-resistant materialpermanently attached showing as a minimum the following:5.2.3.1 Manufacturers model number and joint size,5.2.3.2 Design pressure and design temperature range,5.2.3.3 Nominal traverse or movement per slip,5.2.3.4 Type of
25、 packing and service fluid, and5.2.3.5 Date of manufacture.6. Joint Descriptions6.1 Styles:6.1.1 Style IThe slip of the expansion joint shall be guidedwith the body of the expansion joint by internal and externalguides that are integral with the stuffing box. Semiplasticpacking shall be injected int
26、o the stuffing box and may becontained within the stuffing box chamber by ring-type pack-ing. All packing shall be of the self-lubricating type. Theexpansion joint and semiplastic packing shall be suitable forthe safe injection of the packing under full-line pressure to stopleakage. Provisions for p
27、acking injection shall be by deviceslocated radially about the stuffing box and designed to permita maximum evacuation of packing at the bottom of the packingdevice when the injector is fully engaged. The number ofdevices with injectors for each stuffing box shall be inaccordance with the manufactur
28、ers standard practice. Thedesign of the packing injection devices shall be such as toensure no blowback of injectable packing or the service fluidwhen injecting packing under full-line pressure.6.1.2 Style IIThe expansion joint shall be the same asStyle I except low-friction corrosion-resistant mate
29、rial orinserts shall be used for internal and external guiding to preventslip scoring from pipe misalignment or vibration and to preventcorrosion of the guide surfaces.6.2 Classes:6.2.1 Class IThe expansion joint shall have slip at onlyone end of the joint. Class I expansion joints may or may notreq
30、uire a base.6.2.2 Class IIThe expansion joint shall have slip at bothends of the joint. Class II expansion joints shall require a base.6.3 Forms:6.3.1 Form IWelded End: The expansion joint shall haveprovisions at each end of the joint for field welding to theadjoining pipe line.6.3.2 Form IIFlanged
31、End: The expansion joint shallhave flanges at each end of the joint for bolting to the matingflanges of the adjoining pipe line.6.3.3 Form IIIThe expansion joint shall have other endconnections as specified for attaching to the adjoining pipeline.7. Design7.1 The expansion joint shall be designed to
32、 conform toapplicable sections of the latest edition of ANSI B31.1 andother applicable documents as noted in Section 2.7.2 Compresson ForceUnless otherwise specified, theforce to compress or extend the slip of the expansion joint shallnot exceed 1000 lbf/in. (175 100 N/m) of nominal pipediameter.8.
33、Construction8.1 SlipThe slip shall be manufactured from steel pipeconforming to Specification A53/A53M, Grade B, or a rolledand welded cylinder from Specification A285/A285M, GradeC plate, or equal with the longitudinal weld seam 100 %radiographed. The minimal wall thickness of the pipe or rolledcyl
34、inder shall be equivalent to schedule 80 pipe for all sizes toF1007 18214 in. (356 mm), inclusive and schedule 60 for sizes 16 to 24in. (406 to 610 mm) to preclude slip collapse as a result ofexternal loading of the injectable packing. Heavier wall pipemay be required for expansion joints subjected
35、to pressuresabove 600 psig and for pipe sizes above 24-in. (610-mm)diameter.8.1.1 Chrome PlateThe slip of the expansion joints shallbe chrome plated with engineering chrome in accordance withSpecification B650, Class 50.8.2 Stuffng BoxThe stuffing box with integral internal andexternal guides shall
36、be machined from Specification A53/A53M, Grade B Pipe, or AISI C-1018 seamless tubing or caststeel in accordance with A216/A216M, Grade WCB. A rolledand welded cylinder from Specification A285/A285M, GradeC plate, or equal may be used provided the longitudinal weldseam is 100 % radiograph examined i
37、n accordance with ANSIB31.1 and ASME Code Section V.8.3 Traverse ChamberThis chamber, also referred to asthe “E.J. Body,” shall be machined from Specification A53/A53M, Grade B seamless steel pipe having a wall thicknesssuitable for the design service conditions. A rolled and weldedcylinder from Spe
38、cification A285/A285M, Grade C, or equalsteel plate of suitable thickness for the design service condi-tions may also be used if the longitudinal weld seam is 100 %radiograph inspected to ANSI B31.1 and ASME Code SectionV.8.4 End ConnectionsThe end connections of the expan-sion joint (see Section 6)
39、 shall be flanged, weld end, combi-nation of both, or others as specified. Flanges shall conform toANSI B16.5 and be of the size, material, pressure class, andfacing specified. Weld ends shall be beveled for welding toconform to ANSI B16.25 and be of the size, material, andnominal wall thickness as
40、specified for the mating pipe.8.4.1 Body End Connection for Class I Expansion Joints:8.4.1.1 Form IWeld End: The reduction of the body sizeto the pipeline size shall be accomplished by a formedreduction of the traverse chamber (body) or by a reducer buttwelded to the traverse chamber (body) that mee
41、ts the require-ments of ANSI B31.1 and the ASME Code Section VIII,Division 1.8.4.1.2 Form IIFlanged End: Forged flanges shall beattached to the body by butt welding only and shall be inaccordance with the requirements of ANSI B31.1 and theASME Code Section VIII, Division 1.8.5 Limit StopsLimit stops
42、 may be of the external orinternal type manufactured from a suitable material and de-signed to withstand the full-line pressure thrust load in theevent of a pipeline anchor failure.8.6 Internal and External GuidesSee 8.2.8.6.1 Low-Friction Internal and External GuidesThe low-friction internal and ex
43、ternal guides or inserts shall be madefrom noncorrosive materials with appropriate differential hard-ness to also prevent scoring or binding of the slip.8.7 Base:8.7.1 Expansion Joint Without a Service ConnectionWhen a base is specified for Class I expansion joints, the baseshall be designed for use
44、 as a main anchor. Class II expansionjoints shall have a base that is suitable as an intermediateanchor. The base shall be of cast or fabricated steel thatconforms to the applicable ASTM standard and shall besuitably attached to the joint and drilled in accordance with themanufacturers standard prac
45、tice.8.7.2 Expansion Joint With a Service ConnectionClass Iand Class II expansion joints with a service connection shall beprovided with a main anchor base and all anchor loading data(forces and moments) shall be made available to the manufac-turer to assure adequate anchor design. The base shall be
46、 ofcast or fabricated steel that conforms to the applicable ASTMstandard and shall be suitably attached to the joint and drilledin accordance with the manufacturers standard practice.8.8 Service ConnectionUnless otherwise specified, a ser-vice connection, when required, shall be the manufacturerssta
47、ndard design and shall meet the applicable requirements ofthe ASTM, ANSI, and ASME Codes. The service connectionshall be supplied with end connections as specified (see 8.5).8.9 Drain ConnectionWhen required, a drain connectionshall be attached to the body of the expansion joint and shall bethe manu
48、facturers standard unless otherwise specified. Thedrain connection shall meet the requirements for fitting con-nections as specified in ANSI B31.1.8.10 PackingUnless otherwise specified, the packing shallbe the manufacturers standard-type packing and shall besuitable for the specified service condit
49、ions.8.11 Other Materials of ConstructionWhere the expan-sion joint is to transfer corrosive fluids, or be installed in acorrosive atmosphere, corrosive-resistant materials as specifiedmay be substituted for the carbon steel components, especiallythe sliding slip.9. Drawing Requirements9.1 DrawingsWhen specified, dimensional sketches ordrawings sufficiently detailed to describe the expansion joint tobe supplied, shall be submitted with bid proposals. Theinch-pound system of measurements shall be used to dimen-sion drawings. Drawing
