September 1, 1999 - WRC

WRC Bulletin 445 contains three reports on the results of projects on Plastic Pipe. Report 1; Bending Fatigue Tests on Polyvinylchloride (PVC) Pipe Joints by R. J. Scavuzzo, M. Cakmak, T. S. Srinivatsan and M. Cavak (The Universtiy of Akron). Report 1 is an extensive study of the...

PPI TR-43 - Design Service Life Of Corrugated HDPE Pipe
January 1, 2003 - PPI
A description is not available for this item.
PPI TN-27 - Frequently Asked Questions HDPE Pipe for Water Distribution and Transmission Applications
November 1, 2009 - PPI
A description is not available for this item.
PPI MS-3 - HDPE (High Density Polyethylene) Pipe and Fittings Specification for Buried Potable Water
December 1, 2009 - PPI

This section specifies high density polyethylene pipe (HDPE) and fittings for water utility use as indicated on the Drawings, and as specified herein. • Furnish, Install, and Test HDPE pipe as indicated and specified in this section, and as referred to in related...

ASTM F2136 - Standard Test Method for Notched, Constant Ligament-Stress (NCLS) Test to Determine Slow-Crack-Growth Resistance of HDPE Resins or HDPE Corrugated Pipe
February 15, 2018 - ASTM

This test method is used to determine the susceptibility of high-density polyethylene (HDPE) resins or corrugated pipe to slow-crack-growth under a constant ligament-stress in an accelerating environment. This test method is intended to apply only to HDPE of a limited melt...

PPI TN-58 - HDPE Conduit & Duct Handling Guide
December 1, 2018 - PPI

INTRODUCTION This Handling Guide covers a limited range of safety issues regarding the handling, unwinding, straightening and cutting of polyethylene conduit and duct. These products are also known as high-density polyethylene (HDPE) conduit and duct, or PE conduit or duct. This Guide will...

PIP PLSC0019 - Specification for Pressure Testing HDPE Plastic Pipeline Systems
November 1, 2017 - PIP

This standard provides minimum requirements for performing pressure tests using a liquid medium on non-reinforced HDPE plastic pipe intended for all service types (e.g., hydrocarbon, produced water).

AASHTO R 63 - Standard Practice for Solid Wall High-Density Polyethylene (HDPE) Conduit for Non-Pressure Applications Used for the Protection of Power and Telecommunications Cables
January 1, 2013 - AASHTO

This standard practice provides guidance to engineers in the specification of HDPE conduit used in buried applications for the protection of power cables for use in highways, airport lighting, traffic control and fiber optic data and command and control applications in State Transportation...

August 1, 2017 - PPI

Foreword GUIDE TO SPECIFYING HDPE CONDUIT This technical note was developed and published with the technical help and financial support of the members of the Plastics Pipe Institute (PPI). These members have shown their commitment to developing and improving quality products by...

PPI TR-47 - Pipe Stiffness and Flattening Tests in Coilable HDPE Conduit; and Its Relationship to Burial Depth in Conduit Applications
May 1, 2011 - PPI

Introduction Continuous length, coilable HDPE conduit has enjoyed tremendous growth not only as a protection for electrical cable, but in large part due to the huge expansion of the telecommunications industry in the US and abroad to protect fiber optic cable. Its availability in long...

ASTM F3181 - Standard Test Method for The Un-notched, Constant Ligament Stress Crack Test (UCLS) for HDPE Materials Containing Post- Consumer Recycled HDPE
February 1, 2016 - ASTM

This test method covers an un-notched constant ligament stress (UCLS) test for use with HDPE materials that contain post-consumer recycled HDPE (PCR-HDPE). Contaminants in the PCR-HDPE can initiate stress cracks at elevated temperatures, and this test method evaluates...

ASTM F2737 - Standard Specification for Corrugated High Density Polyethylene (HDPE) Water Quality Units
November 1, 2011 - ASTM

This specification covers materials, structural design, physical dimensions and manufacturing requirements for monolithic or sectional corrugated high density polyethylene (HDPE) water quality units with volumes greater than or equal to 86 ft3 or 640 gal (2,400 L). The corrugated HDPE...

PIP PNSC0036 - High Density Polyethylene (HDPE) Piping Installation Specification
October 1, 2010 - PIP

This Practice describes the requirements for purchasing, fabrication, installation, examination, and testing of general purpose HDPE piping and Factory Mutual (FM) approved piping. Purpose The purpose of the Practice is to provide installation requirements for use by persons involved with...

ASTM F2649 - Standard Specification for Corrugated High Density Polyethylene (HDPE) Grease Interceptor Tanks
September 1, 2014 - ASTM

This specification covers material, design, structural performance, and manufacturing practice requirements for monolithic or sectional corrugated polyethylene grease interceptor tanks with volumes equal to or greater than 333 gal (1,260 L). The corrugated high density polyethylene (HDPE)...

PPI TN-38 - Bolt Torque For Polyethylene Flanged Joints
July 1, 2011 - PPI

Introduction: Lap-Joint Flanges (LJF) have been used for decades. The typical polyethylene flange adapter with loose LJF is also known as a Van-Stone Flange joint. The HDPE flanged joint assembly is an engineered pressure containment connection subject to diverse forces. While simple in...

ASTM F3034 - Standard Specification for Billets made by Winding Molten Extruded Stress-Rated High Density Polyethylene (HDPE)
March 1, 2015 - ASTM

This specification covers billets made from stress-rated high-density polyethylene (HDPE) materials. The billets are manufactured by application of molten extruded material onto a rotating mandrel to form a monolithic mass. Removal of the mandrel provides a billet in the approximate shape of...

PPI TN-46 - Guidance for Field Hydrostatic Testing Of High Density Polyethylene Pressure Pipelines: Owner’s Considerations, Planning, Procedures, and Checklists
June 1, 2013 - PPI

Purpose of Field Testing: Hydrostatic testing is universally known and accepted as the primary means of demonstrating the fitness for service of a pressurized component. It is the responsibility of the owner, through its agents (engineer, contractor, or hydro-test company) to develop its own safe...

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