LUOYANG CAME ENERGY TECH CO., LTD

Dab tsi yog qhov txawv ntawm PE kav thiab HDPE kav?
The difference between HDPE cov kav dej and PE pipes is a question that is often asked. Nws zoo nkaus li yooj yim, tiam sis ob peb tug neeg piav qhia meej. Here we will systematically introduce it to you.
PE pipes are Polyethylene plastic pipes. Raws li hom yooj yim tshaj plaws ntawm cov yas, PE has excellent resistance to most household and industrial chemicals. Common plastic bags, cling film, lwm. are all made of PE.

PE pipes as a whole can be classified into three types: low-density polyethylene pipes (LDPE pipes), medium-density polyethylene pipes (MDPE pipes), and high-density polyethylene pipes (HDPE cov kav dej).
1. Low density polyethylene (abbreviated as LDPE)
Low-density polyethylene is generally produced by high-pressure polymerization with a density of 0.9910 -0.925g / cm³. The molecular structure of low-density polyethylene is a linear macromolecule with many side chains. The side chains of different lengths on the main chain affect the regularity of the macromolecule arrangement, and the stacking is not tight, which hinders the crystallization of polyethylene. Yog li ntawd, the crystallinity is 55% -65%. Low-density polyethylene has a low melting point and a soft texture. The long side chains give it low viscosity at high shear rates during processing and high melt strength during stretching, making it very suitable for the blown film process and mainly used in the production of agricultural films, heavy packaging films, lwm.
2. Medium-density polyethylene (MDPE for short)
Medium-density polyethylene (MDPE) is controlled in density by A-olefin copolymerization at medium and low pressures using an efficient catalyst
(0.926-0.940q/cm3), with a crystallinity of 70%-80%. Due to its numerous and long side chains, density and crystallinity decrease, medium-density polyethylene has better flexibility and low-temperature properties, and its tensile strength, hardness, thermal properties, lwm. are inferior to those of high-density polyethylene. Due to the fact that copolyolefin can increase the intergranular linking chains of the crystal sheets of medium-density polyethylene, its resistance to slow cracking and long-term retention of mechanical strength are greatly improved compared to LDPE. Medium-density polyethylene can be used in the production of pressure pipes, delivery pipes, various containers and packaging films.
3. High-density Polyethylene (HDPE for short)
High-density polyethylene (HDPE) is produced by a low-pressure polymerization process, is linear, has a density of 0.94-0.965q/cm ³, has a crystallinity of 80%-95%, and is a white powder or granule. Compared with low-density polyethylene, it has fewer other sub-chains, a nearly linear structure, regular and close-packed molecules, and thus has high crystallinity, high density, relative molecular mass ranging from hundreds of thousands to hundreds of thousands, and a narrow range of melt flow rates. High density polyethylene has high rigidity and toughness, good mechanical strength and heat resistance, as well as good resistance to deep agents and steam penetration. High-density polyethylene has the lowest permeability among all types of polyethylene, the strongest corrosion resistance, and good rigidity, and is mainly used in the production of various pressure pipes, injection molded products, lwm.

HDPE pipe is a type of PE pipe, but the performance of HDPE pipe is superior to that of ordinary PE pipe, which we can summarize as follows:
1, Different pressure resistance:
HDPE pipes must be able to withstand certain pressures, and usually a high molecular weight and good mechanical properties PE resin is chosen, such as HDPE resin, which is nine times stronger than ordinary polyethylene pipes (PE tub);
2, the wear resistance is different
Among all engineering plastics, HDPE has the best abrasion resistance. The higher the molecular weight, the more wear-resistant the material is, even more than many metal materials (such as carbon steel, stainless hlau, bronze, lwm.) the abrasion resistance of common PE is only one-tenth of that of HDPE;
3, Different uses
General PE pipes (medium-density polyethylene pipes) are suitable for transporting gaseous artificial gas, natural gas, liquefied petroleum gas, while low-density polyethylene pipes are flexible tubes;
HDPE cov kav dej (high-density polyethylene kav) are mainly used for transporting natural gas, municipal engineering water supply systems, indoor water supply systems of buildings, outdoor buried water supply systems and buried water supply systems in residential areas and factories, old pipeline repair, water treatment engineering pipeline systems, and industrial water pipes in gardens, irrigation and other fields.
HDPE pipes can be used as a replacement for traditional steel pipes and polyvinyl chloride drinking water pipes, which ordinary PE pipes cannot.
Tus neeg muab khoom
Luoyang Datang Energy Tech Co., Ltd., Ltd. yog cov chaw tsim khoom hauv Suav teb tshwj xeeb hauv cov kav dej yas zoo thiab fittings. Nruab nrog lub xeev-of-the-art automated ntau lawm kab thiab txhawb nqa los ntawm ib pab neeg ntawm 200 cov kws tshaj lij, peb muab cov khoom siv dav dav suav nrog ntau dua 150 types of plastic pipes and fittings designed for water supply and drainage systems, kis tau tus mob gas, thiab pem teb cua sov systems. Peb cov khoom tseem ceeb suav nrog PVC Yeeb Nkab thiab Fittings, PE (HDPE) Cov kav dej thiab Fittings, PPR Pipes thiab Fittings, thiab PEX Pem Teb Cua Kub Pipes.
Yog tias koj muaj lus nug txog PVC yeeb nkab & PE yeeb nkab hauv Agricultural Irrigation, thov tsis txhob yig tiv tauj peb!
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