1、Designation: F 2019 03An American National StandardStandard Practice forRehabilitation of Existing Pipelines and Conduits by thePulled in Place Installation of Glass Reinforced Plastic(GRP) Cured-in-Place Thermosetting Resin Pipe (CIPP)1This standard is issued under the fixed designation F 2019; the
2、 number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) indicates an editorial change since the last revision or reapproval.1.
3、Scope1.1 This practice covers the procedures for the reconstruc-tion of pipelines and conduits (4 to 48 in. (100 to 1200 mm)diameter) by the pulled-in place installation of a resin-impregnated, flexible fabric tube into an existing conduitfollowed by inflation with compressed air (see Fig. 1). There
4、sin/fabric tube can be cured by either the flow through thefabric tube of mixed air and steam or by use of ultraviolet light.When cured, the finished cured-in-place pipe will be continu-ous and tight fitting. This reconstruction process can be used ina variety of gravity flow applications such as sa
5、nitary sewers,storm sewers, process piping, electrical conduits, ventilationsystems, and pressure applications.1.2 The values stated in inch-pound units are to be regardedas the standard. The values given in parentheses are forinformational purposes only.1.3 This standard does not purport to address
6、 all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D 543 Testing Met
7、hod of Resistance of Plastics to ChemicalReagentsD 578 Specifications for Glass Fiber StrandsD 638 Testing Method for Tensile Properties of PlasticsD 790 Test Methods for Flexural Properties of Unreinforcedand Reinforced Plastics and Electrical Insulating MaterialsD 1600 Terminology for Abbreviated
8、Terms Relating toPlasticsD 1682 Test Method for Breaking Load and Elongation ofTextile Fabrics3D 3039/D 3039M Test Method for Tensile Properties ofPolymer Matrix Composite MaterialsD 3567 Practice for Determining Dimensions of ReinforcedThermosetting Resin Pipe (RTRP) and FittingsD 5813 Specificatio
9、n for Cured-in-Place ThermosettingResin Sewer PipeF 412 Terminology Relating to Plastic Piping SystemsF 1216 Practice for Rehabilitation of Existing Pipelines andConduits by the Inversion and Curing of a Resin-Impregnated TubeF 1417 Test Method for Installation Acceptance of GravityPlastic Sewer Lin
10、es Using Low Pressure Air TestingF 1743 Practice for Rehabilitation of Existing Pipelines andConduits by Pulled- in-Place Installation of Cured-in PlaceThermosetting Resin Pipe (CIPP)2.2 AWWA Standard:Manual on Cleaning and Lining Water Mains, M2842.3 NASSCO Standard:Recommended Specifications for S
11、ewer Collection SystemRehabilitation53. Terminology3.1 General:3.1.1 Definitions are in accordance with Terminology F 412.Abbreviations are in accordance with Abbreviations D 1600,unless otherwise indicated.3.2 Definitions of Terms Specific to This Standard:3.2.1 calibration hosean impermeable bladd
12、er installedinside the fabric tube, and inflated with air or steam, or both topress the tube firmly against the wall of the existing pipe untilthe resin is cured with air and steam or ultraviolet light. Thecalibration hose is removed when the installation is finished.3.2.2 cured-in-place pipe (CIPP)
13、a hollow cylinder con-sisting of a glass reinforced plastic (GRP) fabric tube with1This practice is under the jurisdiction of ASTM Committee F17 on PlasticPiping Systems and is the direct responsibility of Subcommittee F17.67 onTrenchless Plastic Pipeline Technology.Current edition approved Sept. 10
14、, 2003. Published November 2003.Originally approved in 2000. Last previous edition approved in 2000 asF 2019 00.2For 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
15、standards Document Summary page onthe ASTM website.3Withdrawn.4Available from American Water Works Association (AWWA), 1401 New YorkAve., NW, Suite 640, Washington, DC 20005.5Available from National Association of Sewer Service Companies, 423 W.King Street, Suite 3000, Chambersburg, PA 172011Copyrig
16、ht ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.cured thermosetting resin. External foils are included. TheCIPP is formed within an existing pipe and takes the shape ofthe pipe.3.2.3 delaminationseparation of the layers in the sand-wich cons
17、tructed CIPP3.2.4 dry spotan area of the fabric tube, where thefinished CIPP is deficient or devoid of resin.3.2.5 fiberglass compositea material that is resistant tonormal sewer effluents as tested in accordance with 6.4.1 and6.4.2 of Specification D 5813.3.2.6 fabric tubeflexible fiberglass materi
18、als formed intoa tubular shape which is saturated with resin prior to installa-tion and holds the resin in place as a permanent part of theinstalled cured-in-place pipe as further described in 5.2.1.3.2.7 lifta portion of the CIPP that is a departure from theexisting conduit well forming a section o
19、f reverse curvature inthe CIPP.3.2.8 sliding foila plastic foil installed prior to the fabrictube covering the lower third of the circumference of theexisting pipe to reduce friction.4. Significance and Use4.1 This practice is for use by designers and specifiers,regulatory agencies, owners and inspe
20、ction organizations whoare involved in the rehabilitation of conduits through the use ofa resin-impregnated fabric tube, pulled in place through anexisting conduit and subsequently inflated and cured. As forFIG. 1 Cured-In-Place Pipe Installation Method (Air/Steam)F2019032any standard practice, modi
21、fications may be required forspecific job conditions.5. Recommended Materials and Manufacture5.1 GeneralThe fabric tube, resin and external prelinersshall produce a CIPP that meets the requirements of thesespecifications.5.2 CIPP Wall CompositionThe wall shall consist of acorrosion resistant fibergl
22、ass fabric tube (Fig. 2) saturated witha thermosetting (cross-linked) resin, and if used a fillermaterial.5.2.1 Fabric TubeThe fabric tube shall consist of at leasttwo separate tubes made of corrosion resistant (E-CR) glassfibers in accordance with Specification D 578. The internalsurface shall cons
23、ist of a veil preferably made of polyester. Thefabric tube shall further be constructed with longitudinalunidirectional glass roving of sufficient strength to negotiate aFIG. 2 Composition of Fabric TubeF2019033pulling force at least equal to the weight of the liner. The fabrictube shall tolerate up
24、 to 10 % circumferential changes in theexisting conduit.5.2.2 External FoilsThe external foils (Layer 1 in Figs. 2and 3) shall consist of one or more layers of styrene resistantor light proof, or both, tube-shaped plastic foils.5.2.3 Calibration hoseThe calibration hose (Layer 6 inFig. 2 and Layer 5
25、 in Fig. 3) which is installed during theconstruction of the fabric tube, shall consist of a tube shapedplastic foil able to resist styrene and temperatures up to 260F(126C) while exposed to the installation pressure sufficient tokeep the fabric tube tight against the pipe wall. It shall furtherrele
26、ase easily from the inside wall for removal, when theinstallation is finished.5.2.4 ResinThe resin system shall consist of a chemicallyresistant isophthalic polyester or vinyl ester thermoset resinand catalyst system or an epoxy resin and hardener that iscompatible to the installation process. The r
27、esin system shallhave an initiating temperature less than 180F (82C).5.2.5 PropertiesThe cured CIPP product shall at leasthave the initial structural properties given in Table 1. Thesephysical properties should be determined in accordance withSection 7 of this practice.5.2.6 Chemical ResistanceThe c
28、ured resin/fabric matrixshall after the calibration hose is removed be evaluated in alaminate for qualification testing of long term chemical expo-sure to a variety of chemical effluents and should be evaluatedin a manner consistent with 6.4.1 and 6.4.2 of SpecificationsD 5813.6. Installation Recomm
29、endations6.1 Cleaning and Pre-Inspection:6.1.1 SafetyPrior to entering access areas such as man-holes, and performing inspection and cleaning operations, anFIG. 3 Composition of Alternative Fabric TubeF2019034evaluation of the atmosphere to determine the presence of toxicor flammable vapors or lack
30、of oxygen shall be undertaken inaccordance with local, state or federal safety regulations.6.1.2 Cleaning the PipelineAll internal debris shall beremoved from the original pipeline. Gravity pipes shall becleaned with hydraulically powered equipment, high velocityjet cleaners, or mechanically powered
31、 equipment in accordancewith NASSCO Recommended Specifications for Sewer Col-lection System Rehabilitation. Pressure pipelines shall becleaned with cable attached devices or fluid propelled devicesin accordance with AWWA Manual on Cleaning and LiningWater Mains, M28.6.1.3 Line ObstructionsThe origin
32、al pipeline should beclear of obstructions such as solids, dropped joints, protrudingservice connections, collapsed pipe, and reductions in thecross-sectional area of more than 40 % that may hinder orprevent the installation of the resin impregnated fabric tube.Where the inspection reveals an obstru
33、ction that cannot beremoved by conventional sewer cleaning equipment, then apoint repair shall be made to remove the obstruction.6.1.4 Inspection of PipelinesInspection of pipelines shallbe performed by experienced personnel trained in locatingbreaks, obstacles and service connections by closed circ
34、uittelevision or man entry. The interior of the pipeline shall becarefully inspected to determine the location of any conditionsthat prevent proper installation of the impregnated tube, suchas protruding service taps, collapsed or crushed pipe, andreductions in the cross-sectional area of more than
35、40 %. Theseconditions shall be noted and corrected prior to the installation.6.1.5 Pre-Measurement of Service Connections:6.1.5.1 A pre-measuring of all service locations shall beperformed by experienced personnel. Due to the reinforcementof the fabric tube visible indentations by the lateral connec
36、tionsmay not be readily identified.6.1.5.2 The measurements shall be noted in a log alsocontaining information about the clockwise position of theopening.6.1.6 Bypassing:6.1.6.1 Where bypassing the flow is required around thesections of pipe designated for reconstruction, the bypass shallbe made by
37、plugging the line at the up-stream end of the pipeto be reconstructed and pumping the flow to a downstreampoint or adjacent system.6.1.6.2 The pump and bypass lines shall be of adequatecapacity and size to handle the flow. Services within the reachshall be temporarily out of service.6.1.7 Public adv
38、isory services shall be required to notify allparties whose service laterals are out of commission and toadvise against water usage until the lateral line is back inservice.6.2 Installation Methods:6.2.1 Sliding Foil and Winch CableUpon verification ofthe removal of all debris and protrusions a slid
39、ing foil and awinch cable is pulled through the line. The sliding foil shallcover approximately the lower third of the circumference of thepipe. At the upstream end it is locked in place by being insertedunderneath the plug used to block the flow in the manhole.6.2.2 Invert Roller and Pulling Manifo
40、ldAn invert guideroller is placed in the winch manhole. The invert roller shallallow the pulling manifold to enter the manhole before thepulling is terminated. The pulling manifold is attached to theend of the liner with sufficient strength to transfer the pullingforce. It contains a mounting point
41、for the air/stream hose.During the mounting of the pulling manifold care shall betaken to provide an airtight fit of the calibration hose to themanifold.6.3 Resin Impregnation:6.3.1 The fabric tube shall be totally impregnated with resin(wet-out). The impregnation can either take place before theext
42、ernal foils are mounted or with a light penetrable foilmounted. The impregnation equipment shall contain devices tosecure a proper distribution of the resin. Following the impreg-nation, the fabric tube shall be exposed to a resin thickeningprocedure. Certification documentation concerning date, typ
43、eof resin (manufacturer, trade name and lot number) resincalculation and volume of resin used shall be attached to theimpregnated fabric tube.6.3.2 Storage and TransportationThe impregnated linershall be stored in an area where the temperature is controlled to70F (21C) or less. When the resin impreg
44、nated fabric tube istransported to a job site it shall be shipped with a data loggerinside each container. The data logger shall record exposuretemperatures and time the impregnated tube experiences.6.4 Pulling Resin Impregnated Tube into PositionThewet-out fabric tube shall be pulled in place using
45、 a powerwinch. The fabric tube shall be pulled into place through anexisting manhole or other approved access point to fully extendto the designated manhole or termination point. The pullingspeed shall not exceed 15 ft/min. (5 m/min.). When enteredinto the access point the fabric tube shall be folde
46、d in half andplaced on top of the sliding foil. Care shall be exercised not todamage the tube during the pulling phase. Especially wherecurvilinear alignments, multilinear alignments, multiple off-sets, protruding elements and other friction producing pipeconditions are present. The pulling shall be
47、 considered com-pleted when the pulling manifold and 1 to 2 ft (0.3 to 0.6 m) ofimpregnated tube has entered the termination point. Measurethe overall elongation of the fabric tube after the pull-incompletion. The acceptable longitudinal elongation shall beless than 2 % of the overall length. Next t
48、he length of the fabrictube shall be adjusted to extend 1 to 2 ft into the access pointand mounted with an inlet manifold. The manifolds shall beconnected to inlet- and outlet air/steam hoses and the inletmanifold is mounted with temperature and pressure sensors.TABLE 1 CIPP Initial Structural Prope
49、rtiesAProperty Test Method Minimum value, psi (MPA)Flexural Strength D 790 6500B45Flexural Modulus D 790 725 000 5000Tensile Strength D 3039/D 3039M 9000 62D 638 9000 62AThe values in Table 1 are for test results on field specimens. The purchasershall consult the manufacturer for the long-term structural properties.BThe value indicates minimum strength both in the circumferential and longitu-dinal directionF2019035Temperature sensors shall be further mounted approximately 1ft into the existing pipe on the outside of the fabric tube fromthe access and t
