Pipe Systems > PE Pipe Systems > PE Electrofusion fittings
PE PIPE SYSTEMS - GENERAL CHARACTERISTICS
High Density Polyethylene Pipe (HDPE) is a thermoplastic pipe made from material that can be melted and reformed. It is rugged, flexible, and durable. It has outstanding chemical and environmental stress crack resistance. Relative to existing infrastructure, like ductile iron, concrete or PVC, HDPE seems like a new product. In reality, it has been successfully used in a wide variety of piping applications for over 50 years. The outstanding physical and performance benefits of HDPE pipe make it the perfect choice for your piping systems.
Corrosion is one of the most costly problems associated with metal piping systems. It occurs both inside and outside the pipe and affects hydraulic efficiency.
Many cities treat their water to help slow rust and pitting that is inevitable with metal pipes. Others choose costly cathodic protection, plastic coating, or sleeving to try and extend the service life of the pipe. Unlike traditional metal infrastructure products, HDPE pipe does not rust, rot or corrode. It is resistant to biological growth. This means an extended service life and long term cost savings.
HDPE pipe is flexible and ductile, not rigid. It has outstanding resistance to fatigue. Unlike other plastic pipes, it is designed and pressure rated to handle the kind of occasional and recurring surge events that are common in water distribution systems.In many instances, this will enable you to utilize a thinner wall HDPE pipe as compared to other types of plastic piping. HDPE pipe is a safe and durable product ideal for your piping infrastructure. The service life of HDPE is estimated to be between 50 to 100 years, depending on application, design and installation.
HDPE piping systems can be joined with heat fusion to produce permanent leak free joints. HDPE piping systems can be joined with heat fusion welds. Heat fusion involves the heating of two HDPE surfaces then bringing them together to form a permanent, monolithic, leak-free system. Unlike the fusion process developed for other plastics pipes, the fusion process for HDPE is proven and has been used by the natural gas industry for over 40 years. Fusing HDPE pipe is not difficult and personnel can be trained in the process. In addition to joining HDPE with heat fusion, HDPE pipe can also be joined with Stab or Mechanical Fittings.
There are a wide range of these fittings available, specific to your pipe size and application.
HDPE pipe can easily be transitioned to and from non-HDPE piping systems utilizing Mechanical Joint adapters, Stab fittings and Mechanical and Flanged Connections.
Traditional piping systems are installed by open cut (digging a ditch), resulting in traffic and environmental disruption. HDPE can be installed using this traditional open-cut method or by utilizing eco-friendly trenchless technology.
For trenchless installation, a horizontal directional machine bores a continuous hole beneath the ground. When the drilling head reaches the end of the bore, the pipe is attached and pulled back through the hole.
The flexibility of HDPE, combined with its outstanding tensile strength and abrasion resistance, make it the preferred and proven choice for trenchless installation technology.
HDPE pipe can be installed utilizing trenchless technology under creeks, rivers, lakes, roads, or right-of-ways with minimal environmental and public disruption.
When compared to a non-plastic pipe installed using the open-cut method, a leak-free HDPE system installed utilizing less invasive trenchless technology is more cost effective.
Trenchless technologies are also used to rehabilitate old, failing pipelines with HDPE. There are several technologies to choose from when rehabilitating old pipelines. These technologies include slip lining and pipe bursting. Both are excellent techniques for cities to revitalize or replace and upsize older existing infrastructure.
In addition to its outstanding physical characteristics, HDPE is recognized for its minimal impact on the environment:
It takes less energy to manufacture HDPE than non-plastic pipes.
HDPE is lightweight and is often more cost effective to transport than metal pipes.
The flexibility of HDPE, combined with the use of heat fusion to join the pipe, means fewer fittings are required.
In trenchless installations, the physical characteristics of HDPE pipe enables you to use a smaller pipe, resulting in less ground disruption than when installing other fusible products.
HDPE pipe joined with heat fusion provides leak free connections.
HDPE does not emit potentially hazardous levels of toxins into the air during production, during fusion or into the ground or water during use.
HDPE pipe can be recycled back into non-pressure piping applications.
INFORMATION TO OUR DELIVERY PROGRAM
Plastic pipe systems
Overview of plastic pipe systems
Technical information on ABS pipe systems
Technical information on PVC U pipe systems
Technical information on PVC U transparent pipe systems
Technical information on PVC C pipe systems
Technical information on PP pipe systems
Technical information on PP-R pipe systems
Technical information on PE pipe systems
Technical information on PVDF pipe systems
Chemiedur - pipe
Technical information on UP-GF (FRP) pipe systems
UP-GF (FRP) pipes
UP-GF (FRP) molded parts and connection
UP-GF-PP (FRP) molded parts and connection
UP-GF (FRP) adhesive collars
UP-GF (FRP) loose flanges
Pot Strainer DN 200 - DN 500 Inliner PP/FRP Coated
Pot Strainer DN 200 - DN 500 Inliner FRP/CBL Coated
Angle Seat Strainer DN 200 - DN 400 Inliner FRP/CBL Coated
Manhole mad of FRP and PP/FRP
Calculator for cutting pipes
Guidelines for sawing plastic pipe
Leftovers in plastic pipe
Standardization of plastic pipes and molded parts
PVC U pipes deviations
Pressure loss in pipe systems out of PVC U, PVC C and ABS pipe systems
Distinction between Rp, R and G threads
Screw lengths for flange connections
PVC U transparent ball valves
Plastic needle valves
Plastic Valves according to ATEX
New EU guideline 2014/34/EU
Plastic Valves in EX zones
Y-Strainers PP-EL DN 15 - DN 50
Check valves PP-EL DN 15 - DN 50
Angle seat valves PP-EL DN 15 - DN 50
Bonding of plastic pipes
Video showing the bonding of pipes
Guidelines for extrusion welding
Grids / support grids
Grids out of PP -el electrically conductive
Profile support grids out of PP -el electrically conductive
Molded ventilation parts
PVC transparent hose with fabric inlay
Industrial tanks and chemical containers
Dosing tanks and outer containers 35 1000 Liter
Salt dissolving tanks 60 -5000 Liter
Storage tanks and vats
Storage tanks for water
Safety and collecting troughs
Industrial tank delivery program
Dosing tanks with agitator
Dosing tank agitators
Dosing tanks with attachments
Dosing tanks made of sheet material
Customized chemical containers
Dosing tanks with level indicators
IBC screw caps DN 150/DN 200
IBC adapters out of PE
IBC adapters out of PP
MULTI FLEX BLOCK for IBC BULK CONTAINER
Attachment parts for tank construction
CO2 - absorbes
Filter housings and filter cartridges
PENTEK 3G Slime Line filter housings
PENTEK 3G Standard filter housings
PENTEK Big Blue filter housings
PENTEK PP high temperature filter housings
PENTEK PP all nature filter housings
PENTEK filter bags for Big Blue filter housings
PENTEK surface filter cartridges
PENTEK filter cartridges for depth filtration
PENTEK filter cartridges with activated carbon
CINTROPUR filter systems
CINTROPUR water filters
Blind flanges, loose flanges, rectangular flanges
Table of chemical resistance for plastic pipe systems
Machined plastic parts
Milled plastic parts
Loose flanges and blind flanges made of sheet material
Static mixers made of plastic
Single-type and double-type strainers
Pot strainer DN 300
Angle seat strainer DN 500
Variable area flow meters
Configuration tool for flow meters
Laboratory filter presses
Injection molded parts
Scraper made of PE for filter press
OUR - PREMIUM PARTNERS -