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ASTM F1056-18(2022)

(Specification)

Standard Specification for Socket Fusion Tools for Use in Socket Fusion Joining Polyethylene Pipe or Tubing and Fittings

Standard Specification for Socket Fusion Tools for Use in Socket Fusion Joining Polyethylene Pipe or Tubing and Fittings

ABSTRACT
This specification covers socket fusion tools for use in making socket fusion joints between polyethylene pipe or tubing and fittings as specified by certain specifications. It covers newly manufactured heater faces and used heater faces which have been recoated. Heater faces may be manufactured from aluminum, steel, or other suitable heat conducting material. The manufacture of these socket fusion tools shall be in accordance with good commercial practice so as to produce socket fusion tools meeting the requirements specified. Heater faces shall have surfaces free of cracks, voids, foreign inclusions, or injurious defects.
SCOPE
1.1 This specification covers socket fusion tools for use in making socket fusion joints between polyethylene pipe or tubing and fittings as specified by Specifications D3035, D2513, and D2683. This specification covers newly manufactured heater faces and used heater faces which have been recoated. Requirements for materials, workmanship, and dimensions are included. Where applicable on this specification, “pipe” shall mean “pipe” and “tubing.”  
1.2 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.  
1.3 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

General Information

Status
Published
Publication Date
30-Sep-2022
ICS
23.040.20 - Plastics pipes
Technical Committee
F17 - Plastic Piping Systems
Drafting Committee
F17.20 - Joining
Current Stage
Ref Project

Relations

Refers
ASTM F412-20 - Standard Terminology Relating to Plastic Piping Systems
Effective Date
01-Apr-2020
Refers
ASTM F412-19 - Standard Terminology Relating to Plastic Piping Systems
Effective Date
01-Jan-2019
Refers
ASTM D2513-18 - Standard Specification for Polyethylene (PE) Gas Pressure Pipe, Tubing, and Fittings
Effective Date
15-Apr-2018
Refers
ASTM D1600-18 - Standard Terminology for Abbreviated Terms Relating to Plastics (Withdrawn 2024)
Effective Date
01-Jan-2018
Refers
ASTM F412-17a - Standard Terminology Relating to Plastic Piping Systems
Effective Date
01-Aug-2017
Refers
ASTM F412-17 - Standard Terminology Relating to Plastic Piping Systems
Effective Date
01-Feb-2017
Refers
ASTM D2513-16a - Standard Specification for Polyethylene (PE) Gas Pressure Pipe, Tubing, and Fittings
Effective Date
15-Dec-2016
Refers
ASTM D2513-16 - Standard Specification for Polyethylene (PE) Gas Pressure Pipe, Tubing, and Fittings
Effective Date
01-Dec-2016
Refers
ASTM F412-16a - Standard Terminology Relating to Plastic Piping Systems
Effective Date
15-Nov-2016
Refers
ASTM F412-16 - Standard Terminology Relating to Plastic Piping Systems
Effective Date
01-Aug-2016
Refers
ASTM F412-15 - Standard Terminology Relating to Plastic Piping Systems
Effective Date
01-Jun-2015
Refers
ASTM D3035-14a - Standard Specification for Polyethylene (PE) Plastic Pipe (DR-PR) Based on Controlled Outside Diameter
Effective Date
01-Aug-2014
Refers
ASTM D2513-14 - Standard Specification for Polyethylene (PE) Gas Pressure Pipe, Tubing, and Fittings
Effective Date
25-Apr-2014
Refers
ASTM D2513-14e1 - Standard Specification for Polyethylene (PE) Gas Pressure Pipe, Tubing, and Fittings
Effective Date
25-Apr-2014
Refers
ASTM D3035-14 - Standard Specification for Polyethylene (PE) Plastic Pipe (DR-PR) Based on Controlled Outside Diameter
Effective Date
01-Mar-2014

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ASTM F1056-18(2022) - Standard Specification for Socket Fusion Tools for Use in Socket Fusion Joining Polyethylene Pipe or Tubing and FittingsASTM F1056-18(2022) - Standard Specification for Socket Fusion Tools for Use in Socket Fusion Joining Polyethylene Pipe or Tubing and Fittings
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ASTM F1056-18(2022) - Standard Specification for Socket Fusion Tools for Use in Socket Fusion Joining Polyethylene Pipe or Tubing and Fittings
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This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the
Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.
Designation:F1056 −18 (Reapproved 2022) An American National Standard
Standard Specification for
Socket Fusion Tools for Use in Socket Fusion Joining
Polyethylene Pipe or Tubing and Fittings
This standard is issued under the fixed designation F1056; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
1. Scope* 3. Terminology
1.1 This specification covers socket fusion tools for use in 3.1 Definitions:
making socket fusion joints between polyethylene pipe or 3.1.1 General—Definitions are in accordance with Termi-
tubing and fittings as specified by Specifications D3035, nology F412 and abbreviations are in accordance with Termi-
D2513, and D2683. This specification covers newly manufac- nology D1600, unless otherwise specified.
tured heater faces and used heater faces which have been
3.2 Definitions of Terms Specific to This Standard:
recoated. Requirements for materials, workmanship, and di-
3.2.1 chamfer tool—a device that is used to chamfer the
mensions are included. Where applicable on this specification,
outside edge of the pipe. The chamfer allows the pipe end to
“pipe” shall mean “pipe” and “tubing.”
easily enter the pipe heater face and easily enter the heated
1.2 The values stated in inch-pound units are to be regarded fitting. Chamfering is optional for all sizes but commonly done
as standard. The values given in parentheses are mathematical for 1 ⁄4-in. IPS and larger sizes.
conversions to SI units that are provided for information only
3.2.2 depth gage—a device that is used to locate the
and are not considered standard.
rounding clamp a prescribed distance from the end of the pipe.
1.3 This international standard was developed in accor-
3.2.3 heating tool—a device used to heat the heater faces.
dance with internationally recognized principles on standard-
3.2.4 fitting heater face or adapter—A block of heat con-
ization established in the Decision on Principles for the
ducting material that attaches to the heating tool and is
Development of International Standards, Guides and Recom-
dimensioned to melt the internal surface of the fitting socket.
mendations issued by the World Trade Organization Technical
3.2.5 pipe heater face or adapter— A block of heat con-
Barriers to Trade (TBT) Committee.
ducting material that attaches to the heating tool and is
dimensioned to melt the external surface of the pipe.
2. Referenced Documents
NOTE1—Thefittingheaterfaceandpipeheaterfacecanbeinoneblock
2.1 ASTM Standards:
of heat conducting material.
D1600 Terminology forAbbreviatedTerms Relating to Plas-
3.2.6 rounding clamp or cold ring—a device that is clamped
tics
aroundthepipetoroundthepipeandlimitthedistancethepipe
D2513 Specification for Polyethylene (PE) Gas Pressure
end goes into the pipe heater face and the socket fitting.
Pipe, Tubing, and Fittings
D2683 Specification for Socket-Type Polyethylene Fittings
4. Materials and Manufacture
for Outside Diameter-Controlled Polyethylene Pipe and
4.1 Heater faces may be manufactured from aluminum,
Tubing
steel, or other suitable heat conducting material.
D3035 SpecificationforPolyethylene(PE)PlasticPipe(DR-
PR) Based on Controlled Outside Diameter
NOTE 2—Polyethylene may stick to hot metal heating surfaces. This
F412 Terminology Relating to Plastic Piping Systems
sticking may be minimized by covering the heating surfaces with a
stick-resistant coating such as polytetrafluoroethylene (PTFE) or polyphe-
nylene sulfide (PPS). Copper or copper alloys are not suitable without
coating because some polyolefins react with copper.
This specification is under the jurisdiction ofASTM Committee F17 on Plastic
Piping Systems and is the direct responsibility of Subcommittee F17.20 on Joining.
5. Dimensions, Mass, and Permissible Variations
Current edition approved Oct. 1, 2022. Published October 2022. Originally
5.1 Heaterfacedimensionsandtolerancesshallbeasshown
approved in 1987. Last previous edition approved in 2018 as F1056 – 18. DOI:
10.1520/F1056-18R22.
in Table 1.The dimensions in Table 1 are for heater faces at the
For referenced ASTM standards, visit the ASTM website, www.astm.org, or
commonly used operating temperature of 500 °F (260 °C).
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
Annex A1 contains Table A1.1 which gives dimensions to
Standards volume information, refer to the standard’s Document Summary page on
the ASTM website. measure for coated aluminum faces at 73.4 °F (23 °C).
*A Summary of Changes section appears at the end of this standard
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
F1056−18 (2022)
A,B,C,D
TABLE 1 Socket Fusion Heater Faces
Fitting Heater Face Pipe Heater Face
Size in. A Diameter, in. (mm) B Diameter, in. (mm) C Depth, in. (mm) D Diameter, in. (mm) E Diameter, in. (mm) F Depth, in. (mm)
max Tolerance max Tolerance max Tolerance min Tolerance min Tolerance min Tolerance
⁄2 IPS 0.837 –0.007 0.793 –0.007 0.625 −0.010 0.851 +0.007 0.807 +0.007 0.625 +0.010
(21.26) (−0.18) (20.14) (−0.18) (15.88) (−0.25) (21.62) (+0.18) (20.50) (+0.18) (15.88) (+0.25)
⁄4 IPS 1.046 –0.008 1.004 –0.008 0.625 −0.010 1.062 +0.008 1.020 +0.008 0.625 +0.010
(26.57) (−0.20) (25.50) (−0.20) (15.88) (−0.25) (26.97) (+0.20) (25.91) (+0.20) (15.88) (+0.25)
1 IPS 1.312 –0.008 1.259 –0.008 0.687 −0.010 1.328 +0.008 1.275 +0.008 0.687 +0.010
(33.32) (−0.20) (31.98) (−0.20) (17.45) (−0.25) (33.73) (+0.20) (32.39) (+0.20) (17.45) (+0.25)
1 ⁄4 IPS 1.657 –0.008 1.604 –0.008 0.875 −0.010 1.673 +0.008 1.620 +0.008 0.875 +0.010
(42.09) (−0.20) (40.74) (−0.20) (22.23) (−0.25) (42.49) (+0.20) (41.15) (+0.20) (22.23) (+0.25)
1 ⁄2 IPS 1.896 –0.010 1.840 –0.010 0.875 −0.010 1.916 +0.010 1.860 +0.010 0.875 +0.010
(48.16) (−0.25) (46.74) (−0.25) (22.23) (−0.25) (48.67) (+0.25) (47.24) (+0.25) (22.23) (+0.25)
2 IPS 2.371 –0.010 2.315 –0.010 0.875 −0.010 2.391 +0.010 2.335 +0.010 0.875 +0.010
(60.22) (−0.25) (58.80) (−0.25) (22.23) (−0.25) (60.22) (+0.25) (59.31) (+0.25) (22.23) (+0.25)
3 IPS 3.494 –0.014 3.426 –0.014 1.000 −0.010 3.522 +0.014 3.454 +0.014 1.000 +0.010
(88.75) (−0.36) (87.02) (−0.36) (25.40) (−0.25) (89.46) (+0.36) (87.73) (+0.36) (25.40) (+0.25)
4 IPS 4.495 –0.014 4.421 −0.014 1.125 −0.010 4.523 +0.014 4.449 +0.014 1.125 +0.010
(114.17) (−0.36) (112.29) (−0.36) (28.58) (−0.25) (114.88) (+0.36) (113.00) (+0.36) (28.58) (+0.25)
⁄2 CTS 0.622 –0.007 0.571 −0.007 0.625 −0.010 0.636 +0.007 0.585 +0.007 0.625 +0.010
(15.80) (−0.18) (14.50) (−0.18) (15.88) (−0.25) (16.15) (+0.18) (14.86) (+0.18) (15.88) (+0.25)
⁄4 CTS 0.871 –0.008 0.817 −0.008 0.625 −0.010 0.887 +0.008 0.833 +0.008 0.625 +0.010
(22.12) (−0.20) (20.75) (−0.20) (15.88) (−0.25) (22.53) (+0.20) (21.16) (+0.20) (15.88) (+0.25)
1 CTS 1.122 –0.008 1.059 −0.008 0.625 −0.010 1.138 +0.008 1.075 +0.008 0.625 +0.010
(28.50) (−0.20) (26.85) (−0.20) (15.88) (−0.25) (28.91) (+0.20) (27.31) (+0.20) (15.88) (+0.25)
1 ⁄4 CTS 1.372 –0.008 1.314 −0.008 0.687 −0.010 1.388 +0.008 1.330 +0.008 0.687 +0.010
(34.85) (−0.20) (33.38) (−0.20) (17.45) (−0.25) (35.26) (+0.20) (33.78) (+0.20) (17.45) (+0.25)
A
Dimensions are for heater faces at the commonly used operating temperature of 500 °F (260 °C) (see AnnexA1 for dimensions for coated, aluminum heater faces at
73.4 °F (23 °C )).
B
Recommended heater faces should be manufactured close to maximum diameter for fitting heater faces and close to minimum diameter for pipe heater faces to allow
for wear and recoating.
C
Minimum dimensions have zero negative tolerance. Maximum dimensions have zero positive tolerance. The sketches and designs of the heater faces are illustrative
only. Entrance and base chamfer or radius is optional. The maximum entrance and base chamfer or radius is 0.03 in. (0.7 mm).
D
“F”DepthTolerancesareintendedasapointofmeasurementof“E”diameteronlyandnotasalimitofactualsockettooldepth.Thedepthofthepipeheaterfacesocket
may be of any dimension greater than “F”.
5.2 Depthgagedimensionsandtolerancesshallbeasshown 8. Inspection
in Table 2.
8.1 Inspection of socket fusion tools shall be agreed upon
5.3 Chamfer dimensions shall be limited to a maximum of between
...

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Note 4: The sustained and burst pressure test requirements, and the pressure ratings in the appendix, are calculated from stress values obtained from tests made on pipe 4 in. (100 mm) and smaller. However, tests conducted on pipe as large as 24 in. (600 mm) in diameter have shown these stress values to be valid for larger diameter PVC pipe.  
Note 5: PVC pipe made to this specification is often belled for use as line pipe. For details of the solvent cement bell, see Specification D2672 and for details of belled elastomeric joints, see Specifications D3139 and D3212.  
1.6 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barrier...

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ASTM
ASTM F2618-24(Specification)
Standard Specification for Chlorinated Poly (Vinyl Chloride) (CPVC) Pipe and Fittings for Chemical Waste Drainage Systems

SCOPE
1.1 This specification covers the performance requirements of CPVC pipe, fittings and solvent cements used in chemical waste drainage systems.  
1.2 A system is made up of pipe, fittings and solvent cement that meet the requirements of this standard.
Note 1: Consult the manufacturer’s chemical resistance recommendations for chemical waste drainage applications prior to use.  
1.3 The text of this specification references notes, footnotes and appendices that provide explanatory material. These notes and footnotes (excluding those in tables and figures) shall not be considered as requirements of the specification.  
1.4 The pressure tests described in this standard are laboratory hydrostatic tests that are intended to verify joint/system integrity. They are not intended for use as field tests of installed systems.  
1.5 Due to inherent hazards associated with testing components and systems with compressed air or other compressed gases, no such testing shall be done unless the component manufacturer gives approval in writing.
Note 2: Pressurized (compressed) air or other compressed gases contain large amounts of stored energy, which present serious safety hazards should a system fail for any reason.  
1.6 Mechanical joints used for joining pipe and fittings of different materials are provided for in this specification. They include common flanges, couplings, and unions.  
1.7 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.
Note 3: This specification specifies dimensional, performance, and test requirements for fluid handling applications but does not address venting of combustion gases.  
1.8 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.9 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM D2665-24(Specification)
Standard Specification for Poly(Vinyl Chloride) (PVC) Plastic Drain, Waste, and Vent Pipe and Fittings

ABSTRACT
This specification covers requirements and test methods for materials, dimensions and tolerances, pipe stiffness, crush resistance, impact resistance, hydrostatic burst resistance, and solvent cement for poly(vinyl chloride) plastic drain, waste, and vent pipe and fittings. The pipe and fittings covered are suitable for the drainage and venting of sewage and certain other liquid wastes. A form of marking is also included. The pipe and fittings shall be made of virgin PVC compounds of defined specification. The pipe shall conform to the required stiffness, deflection load and flattening. The fittings shall be subject to hydrostatic burst pressure. The pipe and fittings shall be subject to impact resistance test.
SCOPE
1.1 This specification covers requirements and test methods for materials, dimensions and tolerances, pipe stiffness, crush resistance, impact resistance, and solvent cement for poly(vinyl chloride) plastic drain, waste, and vent pipe and fittings. A form of marking is also included. Plastic which does not meet the material requirements specified in Section 5 is excluded. Installation procedures are given in the Appendix.  
1.2 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.  
1.3 The text of this specification references notes, footnotes, and appendixes which provide explanatory material. These notes and footnotes (excluding those in tables and figures) shall not be considered as requirements of the specification.  
1.4 The following safety hazards caveat pertains only to the test methods portion, Section 7, of this specification: This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM F1734-24(Practice)
Standard Practice for Qualification of a Combination of Squeeze Tool, Pipe, and Squeeze-Off Procedures to Avoid Long-Term Damage in Polyethylene (PE) Gas Pipe

SIGNIFICANCE AND USE
4.1 This practice relies on a screening process using visual inspection followed by 80 °C sustained pressure testing to qualify a squeeze-off process.  
4.2 Squeeze-off is widely used to temporarily control the flow of gas in PE pipe. Squeeze tools vary in squeeze bar shape and size, operating method, and available stop gaps depending on the tool manufacturer and the size of the pipe the tool will be used on. Multiple squeeze tools are required for a range of pipe size and DR combinations. Squeeze-off procedures can vary depending on the tool design, pipe material, pipe size and DR, pipe operating conditions, and pipe environmental conditions.  
4.3 Experience indicates that damage leading to gas pipe failure is possible with some combinations of polyethylene material, pipe temperature, tool design, wall compression percentage, and procedure. This practice is useful for determining the suitability of a tool for squeeze-off and for determining acceptable limits for squeeze-off such as acceptable minimum and maximum pipe temperature for squeeze and acceptable line pressure for squeeze. Tests conducted at different pipe temperatures with various sizes of tools and pipes can be used to verify a range of temperatures, tool sizes, and pipe sizes for which the squeeze-off procedure is applicable.  
4.4 The area of wrinkling at the ears on the inside diameter (ID) of the pipe and the area on the outside of the pipe opposite the ears are examined. Evidence of any one or a combination of void formation, cracks or extensive localized stress whitening, or failure during sustained pressure testing disqualifies the squeeze-off process.  
4.5 Typical unacceptable features implying long-term damage are shown in Appendix X1 photographs.  
4.6 Studies of polyethylene pipe extruded in the late 1980s (PE2306 and PE3408) show that damage typically does not develop when the wall compression percentage is 30 % or less, when closure rates are 2 in./minute or less and release rates are...
SCOPE
1.1 This practice covers qualifying a combination of a squeeze tool, a polyethylene gas pipe, and a squeeze-off procedure to avoid long-term damage in polyethylene gas pipe. Qualifying is conducted by examining the inside and outside surfaces of pipe specimens at and near the squeeze to determine the existence of features indicative of long-term damage. If indicative features are absent, sustained pressure testing in accordance with Test Method D1598 is conducted to confirm the viability of the squeeze-off process.  
Note 1: This practice may be useful for evaluating the effects of squeeze-off of other piping materials. If applied to other piping materials, research testing to confirm the applicability of this practice to other materials should be conducted.
Note 2: Qualification of historic pipe should follow the historic version of F1734 closest to the pipe manufactured data.  
1.2 This practice is appropriate for any combination of squeeze tool, PE gas pipe, and squeeze-off procedure.  
1.3 This practice is for use by squeeze-tool manufacturers and gas utilities to qualify squeeze tools made in accordance with Test Method F1563; and squeeze-off procedures based on with Guide F1041 with pipe manufactured in accordance with Specification D2513.  
1.4 Governing codes and project specifications should be consulted. Nothing in this practice should be construed as recommending practices or systems at variance with governing codes and project specifications.  
1.5 Where applicable in this practice, “pipe” shall mean “pipe and tubing.”  
1.6 Units—The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.  
1.7 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standar...

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ASTM
ASTM F2509-24(Specification)
Standard Specification for Field-assembled Anodeless Riser Kits for Use on Outside Diameter Controlled Polyethylene and Polyamide-11 (PA11) Gas Distribution Pipe and Tubing

ABSTRACT
This specification covers the qualification requirements and test methods for field-assembled anodeless riser kits for use with outside diameter controlled polyethylene gas distribution pipes and tubing in sizes of up to 2 IPS. The anodeless riser kits shall be manufactured in accordance with the specified materials, physical properties, and design, which include the riser casings, moisture seals, threads, bend radius, coatings, welding procedures, and riser adapter to riser casing connections. The riser adapter to riser casing connections shall tested by tensile pull testing.
SCOPE
1.1 This specification covers requirements and test methods for field-assembled anodeless riser kits for use with outside diameter controlled polyethylene and PA11 gas distribution pipe and tubing in sizes through 2 IPS as specified in Specification D2513 polyethylene and Specification F2945 for PA11.  
1.2 The test methods described are not intended to be routine quality control tests.  
1.3 This specification covers the types of field-assembled anodeless riser kits described in 3.3.2.  
1.4 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and not considered standard.  
1.5 The text of this standard references notes and footnotes which provide explanatory material. These notes and footnotes (excluding those in tables and figures), shall not be considered as requirements of the standard.  
1.6 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.7 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM F1473-24(Test Method)
Standard Test Method for Notch Tensile Test to Measure the Resistance to Slow Crack Growth of Polyethylene Pipes and Resins

SIGNIFICANCE AND USE
5.1 This test method is useful to measure the slow crack growth resistance of molded plaques of polyethylene materials at accelerated conditions such as 80 °C, 2.4 MPa stress, and with a sharp notch.  
5.2 The testing time or time to failure depends on the following test parameters: temperature; stress; notch depth; and specimen geometry. Increasing temperature, stress, and notch depth decrease the time to failure. Material parameters, not controlled by the laboratory, that could impact the test results (time to failure) are: pigment (color or carbon black) and the carrier resin for the pigment, or both. Thus, in reporting the test time or time to failure, all the conditions of the test shall be specified.  
Note 4: Time to failure can also be affected by the degree of pigment (color or carbon black) dispersion and distribution within the test specimen. Test Method D5596 and ISO 18553 provide methods for assessing the degree of dispersion and distribution of the pigment
SCOPE
1.1 This test method determines the resistance of polyethylene materials to slow crack growth under conditions specified within.
Note 1: This test method is known as PENT (Pennsylvania Notch Test) test.  
1.2 The standard test is performed at 80 °C and at 2.4 MPa, but it shall be acceptable to conduct tests at a temperature below 80 °C and with other stresses low enough to preclude ductile failure and thereby eventually induce brittle type of failure. The standard test is conducted in an air environment; however, it shall be acceptable to immerse test specimens in an alternate environment such as water or a water/detergent solution, or other liquid or a different environment such as an inert gas to evaluate slow crack growth performance in different environments. Generally, polyethylenes will ultimately fail in a brittle manner by slow crack growth at 80 °C if the stress is at or below 2.4 MPa
Note 2: When testing in environments other than air, it is recommended to consider maintaining the efficacy of the test media (for example, a detergent solution) to minimize any effect of aging.  
1.3 The test method is for specimens cut from compression molded plaques.2 See Appendix X1 for information relating to specimens from pipe.  
1.4 The values stated in SI units are to be regarded as standard. The values given in parentheses after SI units are provided for information only and are not considered standard.  
1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.6 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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