HDPE Electrofusion Coupler is a high-performance pipe fitting widely used in modern piping systems. It is made of high-density polyethylene (HDPE) material with chemical stability, corrosion resistance and wear resistance. HDPE materials can resist a variety of chemicals, such as acids, alkalis, salts and organic solvents, so they are suitable for the transportation of various harsh environments and chemical media.
Technical Characteristics
HDPE electrofusion connection technology uses advanced electrofusion technology to tightly connect pipe fittings and pipes through electrical energy. Compared with traditional welding methods, electrofusion connections are faster, easier, more reliable and leak-free, greatly reducing installation time and maintenance costs. In addition, electrofusion connection technology also has good adaptability and is suitable for various environmental conditions. Users can choose HDPE Electrofusion Coupler of different diameters according to their needs to meet the needs of various pipeline systems.
In addition to better chemical properties and ease of installation, HDPE Electrofusion Coupler also has good flexibility and shock resistance. It can adapt to the bending and deformation of pipelines, reduce stress concentration in the pipeline system, and improve the stability and reliability of the system. At the same time, the seismic performance of HDPE materials can also help improve the safety of pipeline systems in natural disasters such as earthquakes and ensure users' water safety.
Specifications
SPECIMICATION | |
50 | 200 |
56 | 250 |
63 | 315 |
75 | |
90 | |
110 | |
125 | |
160 |
The heating system of the HDPE welding machine is its core component, which is mainly composed of a heating plate or hot air welding head, a temperature control sensor, a heating element (such as a re...
READ MORETemperature changes have a significant impact on the performance of HDPE thread fittings, especially under extreme temperature conditions. In high temperature environments (over 60°C), the thermal mot...
READ MOREPhoto-oxidative degradation of materials is one of the main causes of performance degradation. In the molecular chain of high-density polyethylene (HDPE), methylene groups are prone to chain scission ...
READ MOREKEEP IN TOUCH