How Does PEX Pipe Work?
An In-Depth Look at the Performance and Properties of Crosslinked Polyethylene Plumbing
PPEX has become a leading piping material for modern residential and commercial plumbing systems. But how exactly does PEX pipe work? This article provides an in-depth explanation of PEX properties and capabilities that enable its growing use for hot and cold water delivery in buildings.IFAN factory with 30+ years of manufacturing experience supports color/size customization support free samples. Welcome to consult for catalog and free samples. This is our Facebook Website: www.facebook.com.
PEX Expanded – Crosslinked Polyethylene
PEX stands for crosslinked polyethylene. This refers to the molecular structure of the plastic material that makes up flexible PEX tubing.
PEX starts as polyethylene, the most common plastic material. The long molecular chains that makeup polyethylene get chemically “crosslinked” together to form a robust three-dimensional structure.
This crosslinking enhances polyethylene’s natural beneficial properties like chemical resistance, temperature rating, and impact strength. Crosslinking also gives PEX increased flexibility compared to rigid polyethylene pipes.
The end result is a durable, flexible plastic material optimized for plumbing and fluid transport – crosslinked polyethylene, or PEX.
Three Methods of Crosslinking Polyethylene into PEX
There are three main methods of inducing chemical crosslinks between polyethylene chains to create PEX:
PEX-a – Produced using peroxide (Perox) to generate free radicals and form crosslinks when the material gets heated and pressed. Peroxide allows very controlled, consistent crosslinking.
PEX-b – Uses chemicals like silane to induce crosslinks when polyethylene gets exposed to moisture during processing. The crosslinking happens gradually during the manufacturing process.
PEX-c – Bombard’s polyethylene with electron beams (E-beam) to produce crosslinks by disrupting and rejoining molecular bonds. E-beam is very fast but can make very dense, tightly crosslinked PEX.
All three methods result in crosslinked polyethylene. Manufacturers choose a process based on factors like desired properties, production speed, and cost.
Advantages Crosslinking Provides to Polyethylene
Introducing chemical crosslinks between polyethylene polymer chains imparts important advantages:
- Increased high-temperature rating – Crosslinking prevents melting and distortion.
- Improved flexibility – Crosslinks allow stretching without permanent deformation.
- Higher impact and abrasion resistance – Material maintains integrity under impacts.
- Greater resistance to cracking – Material can flex rather than become brittle when stressed.
- Improved memory to resist kinks – Crosslinks make PEX dynamically stable.
These enhancements make crosslinked polyethylene suitable for plumbing and mechanical systems in ways unmodified polyethylene cannot match.
Crosslinking Enables PEX to Perform Across a Range of Temperatures
A key benefit of crosslinking is enabling polyethylene to withstand temperatures from below freezing up to 180°F without loss of strength or cracking.
Uncrosslinked polyethylene becomes soft and deformable starting around just 90°F as the material approaches its melt point. Introducing crosslinks via PEX processing raises the melting point significantly.
The three-dimensional network makes PEX piping elastic enough to handle expansion and contraction with temperature swings. This temperature endurance supports hot water plumbing and radiant floor heating reliability.
PEX Consists of a Crosslinked Polyethylene Core in Some Cases
Some PEX tubing products utilize a crosslinked polyethylene core with an additional outer layer:
- Aluminum PEX – Has an outer aluminum layer bonded to the PEX core. Provides rigidity while retaining core flexibility.
- Oxygen Barrier PEX – Includes an outer EVOH or metal layer to prevent oxygen ingress. Used for radiant heating water that is prone to corrosion.
- PERT – A PEX core reinforced with a woven fiberglass mesh. Improves kink and compression resistance.
The crosslinked polyethylene still imparts temperature resistance, flexibility, and chemical inertness while the outer layer adds supplemental benefits.
Special PEX Grades Offer Enhanced Properties
PEX manufacturers produce some special grades by modifying the base crosslinked polyethylene:
- PEX-c – Extra irradiation creates a very dense crosslink network for extreme temperature rating (up to 230°F).
- PEX-rt – Boosted oxidation resistance allows use for hot oxygenated water.
- PEX-uv – With added UV stabilizers and protection for outdoor exposure capability.
- High flexibility PEX – Lower crosslink density for increased bending capability.
These special PEX variants extend the capabilities of crosslinked polyethylene for unique demanding applications.
The History of PEX Development
PEX was first developed in the 1960s when chemists experimented with crosslinking polyethylene. Early adopters of PEX were industrial firms and the automotive radiator industry.
PEX use accelerated in Europe first before adoption spread to North America and Asia. Through the 1990s and 2000s, PEX resin and manufacturing processes improved allowing cost-effective production of high-quality tubing.
As experience has grown over decades of global PEX installations, engineers gain confidence in PEX as a highly capable plumbing material for the 21st century.
The Future Evolution of PEX Technology
As PEX gains mainstream acceptance displacing copper and PVC, manufacturing processes and material quality continue advancing. Some development directions include:
- Reduced production costs through improved process efficiency and automation
- Enhanced PEX material grades with superior temperature, chemical, and abrasion resistance
- Co-extrusion and multi-layer PEX innovations combining properties in novel ways
- High-tech monitoring of PEX production and automated quality control
- Expanded pressure ratings and sizes to address more plumbing system applications
PEX has already benefited from progress in polymer and plastics engineering. However additional innovation will unlock further capabilities going forward.
The Meaning Behind the Acronym – Crosslinked Polyethylene
In summary, PEX stands for crosslinked polyethylene – polyethylene plastic that has been chemically modified by crosslinking polymer chains together. This enhances polyethylene’s properties to create a superior plumbing material.
Though the name is cryptic, the science behind PEX enables its growing use for reliable water transport. The crosslinking gives PEX heightened performance across the demanding conditions found in residential, commercial, and industrial plumbing systems.
IFAN
IFAN factory started in 1993. And IFAN has a workshop of 120000 square meters with 610 staff. IFAN can design and produce all plumbing pipe and fitting including PPR, PVC, CPVC PPSU HDPE PEXA PEXB PERT pipe and fitting, brass fitting, brass ball valve, heating system, gas system, sanitary faucets, and hose, In the past 30 years, IFAN has never forgotten his mission-To protect health and safety. And IFAN factory uses the best materials to produce high-quality pipe and fittings with an automatic production line and high-tech quality control machines.