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Cf Precursor Pan Spinning Line
Cf Precursor Pan Spinning Line
FOB Price 1000000 USD / Set
MOQ
1 Set
Port
CHINESE PORT
Lead Time
10MONTHS
China
Main Products : PSF, POLYESTER FIBER, RECYCLE FIBER PRODUCTION LINE, PSF PRODUCTION LINE
P.O. Box. 31291, Ras Al-Khaimah, UAE Suzhou, Jiangsu
Cf Precursor Pan Spinning Line Details
Brand Name
TXMC
Place of Origin
China
Supply Type
customization
Condition
New
Cf Precursor Pan Spinning Line Introduce

CF PRECURSOR- PAN SPINNING LINE.

(solution: DMF, DMSO,etc..)

Applications

Carbon fiber is most notably used to reinforce composite materials, particularly the class of materials known as carbon fiber or graphite reinforced polymers. Non-polymer materials can also be used as the matrix for carbon fibers. Due to the formation of metal carbides and corrosion considerations, carbon has seen limited success in metal matrix composite applications. Reinforced carbon-carbon (RCC) consists of carbon fiber-reinforced graphite, and is used structurally in high-temperature applications. The fiber also finds use in filtration of high-temperature gases, as an electrode with high surface area and impeccable corrosion resistance, and as an anti-static component. Molding a thin layer of carbon fibers significantly improves fire resistance of polymers or thermoset composites because a dense, compact layer of carbon fibers efficiently reflects heat.[3]

The global demand on carbon fiber composites was valued at roughly US$10.8 billion in 2009, which declined 8-10% from the previous year. It is expected to reach US$13.2 billion by 2012 and to increase to US$18.6 billion by 2015 with an annual growth rate of 7% or more. Strongest demands come from aircraft & aerospace, wind energy, as well as the automotive industry.[4]

Synthesis

Each carbon filament is produced from a precursor polymer. The precursor polymer is commonly rayon, polyacrylonitrile (PAN) or petroleum pitch. For synthetic polymers such as rayon or PAN, the precursor is first spun into filaments, using chemical and mechanical processes to initially align the polymer atoms in a way to enhance the final physical properties of the completed carbon fiber. Precursor compositions and mechanical processes used during spinning may vary among manufacturers. After drawing or spinning, the polymer fibers are then heated to drive off non-carbon atoms (carbonization), producing the final carbon fiber. The carbon fibers may be further treated to improve handling qualities, then wound on to bobbins. Wound bobbins are then used to supply machines that produce carbon fiber threads or yarn.

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