Ultra High Molecular Weight Polyethylene Fiber

Product name: ultra high molecular weight polyethylene fiber Performance profile: PE yarn, ultra high molecular weight, high strength and high modulus, ultra high molecular weight polyethylene (UHMWPE), also known as high strength and high modulus polyethylene fiber, is the world's high...
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Product Details

Product name: ultra high molecular weight polyethylene fiber

Performance profile:

PE yarn, ultra high molecular weight, high strength and high modulus, ultra high molecular weight polyethylene (UHMWPE), also known as high strength and high modulus polyethylene fiber, is the world's high specific strength and specific modulus of the fiber, its molecular weight in 1 million ~ 5 million polyethylene fiber spun.

Performance:

1. High strength and modulus. The strength is more than ten times of the same section of steel wire, and the modulus is only second to super carbon fiber.

2. Low fiber density (0.97g/cm3) can float on water.

3. Low breaking elongation, large breaking work, strong ability to absorb energy, and outstanding impact and cutting resistance.

4. Anti-ultraviolet radiation, neutron and gamma ray protection, higher energy absorption, lower dielectric constant and higher electromagnetic wave transmission.

5, chemical corrosion resistance, wear resistance, with a long flexural life.

Physical properties: density: 0.97 ~ 0.98g/cm3.It's less dense than water and can float on water. Strength: 2.8 ~ 4N/ Tex. Modulus: 91 ~ 140N/ Tex. Elongation: 3.5% ~ 3.7%.The impact energy is nearly twice as high as the aromatic amide fiber, with good wear resistance and small friction coefficient, but the melting point under stress is only 145 ~ 160.

Application:

(1) application of ropes and cables: ropes, cables, sails and fishing gear made of the fiber are suitable for Marine engineering and are the primary USES of the fiber. It is widely used for load rope, heavy load rope, salvage rope, towing rope, sailing rope and fishing line. The rope is used for fixed anchor rope of supertanker, offshore operating platform, lighthouse, etc., which solves the problem that the corrosion of steel cable and the corrosion, hydrolysis, ultraviolet degradation of nylon and polyester cable in the past cause the cable strength to decrease and break, which needs to be replaced frequently.

(2) sports equipment and supplies: it has been made into hard hats, skis, sail wheel boards, fishing rods, rackets and bicycles, glide boards, ultra-lightweight aircraft parts, etc., whose performance is better than that of traditional materials.

(3) used as biological materials: this fiber reinforced composite material is used for denture materials, medical implants, plastic suture and other aspects. It has good biocompatibility and durability, high stability, and will not cause allergies. It has been used in clinical applications. It is also used for medical gloves and other medical measures.

(4) industrially, the fiber and its composite materials can be used as pressure vessels, conveyor belts, filtering materials, automobile buffer plates, etc. In construction, it can be used as wall and partition structure, etc. It can be used as reinforced cement composite material to improve the toughness of cement and improve its impact resistance.

polyethylene fiber application

Product optimal

1. High strength and modulus. The strength is more than ten times of the same section of steel wire, and the modulus is only second to super carbon fiber.

2. Low fiber density (0.97g/cm3) can float on water.

3. Low breaking elongation, large breaking work, strong ability to absorb energy, and outstanding impact and cutting resistance.

4. Anti-ultraviolet radiation, neutron and gamma ray protection, higher energy absorption, lower dielectric constant and higher electromagnetic wave transmission.

5, chemical corrosion resistance, wear resistance, with a long flexural life.

Physical properties: density: 0.97 ~ 0.98g/cm3.It's less dense than water and can float on water.Strength: 2.8 ~ 4N/ Tex.Modulus: 91 ~ 140N/ Tex.Elongation: 3.5% ~ 3.7%.The impact energy is nearly twice as high as the aromatic amide fiber, with good wear resistance and small friction coefficient, but the melting point under stress is only 145 ~ 160



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