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Send EmailCarbon fiber production is a highly complex process involving a series of physical and chemical reactions and now the search for higher strength and higher modulus. In oxidation, the first stage of carbon fiber production, the orlon material is heated at 300 °C. The purpose of the heating stage is to separate it from the hydrogen it contains.Oxygen is added to the hydrogen-purified orlon.This separation and addition of oxygen ensures that the carbon fiber to be produced gains fireproof properties.
The lifespan of carbon fiber may vary depending on the environmental factors and loads to which it is exposed. However, it is known that under suitable conditions, carbon fiber can maintain its durability for decades.
Different raw materials are used in the production of carbon fibers, whose main areas of use are clothing for defense purposes, spacecraft, the automobile industry, medical uses (especially in orthopedic operations).
The structure of carbon fiber is 5 times lighter than steel, yet 3 times more resistant to tension than steel. It is one of the strongest materials known in the world. The thread-soft fibers are easily shaped into the desired shape and become composite with its special resin.
Carbon fiber is odorless and insoluble in water, resistant to acids, bases and organic solvents. It is widely used in the composite industry. Tensile and high modulus. The largest use of carbon fiber in the production of aerospace composite components is the low pressure and reinforcement of FRP in buildings.
Carbon Fiber (fibre) reinforced composites are today used in areas such as satellite and space vehicles, sports equipment, racing car and sports car parts, civil and military aviation applications, marine vessels, pressurized storage tanks.