Recently, the Vice-President of India visited National Aerospace Limited (NAL) facilities and laid the foundation stone of the Centre for Carbon Fiber and Prepregs in Bengaluru.

Center for Carbon Fiber and Prepregs

Council of Scientific and Industrial Research (CSIR) and National Aerospace Laboratories (NAL), CSIR-NAL established an integrated facility for carbon fiber and prepregs in 2003 with the focus on indigenizing the carbon fiber development from polyacrylonitrile based precursor fiber.

Carbon Fiber

Carbon fiber is a material that is made by heating fibers of carbon to a high temperature in the absence of air.  The heating process removes all impurities and other non-carbon elements, leaving behind a high-strength, low-weight material. 

• Carbon Fiber Dependency: At present, India does not manufacture carbon fiber domestically, depending entirely on imports from nations like the US, France, Japan, and Germany.

Advantages of Carbon Fiber Compare to Other 3D-Printed Materials

• Enhanced Strength for Structural Use: The advantage of carbon fiber printed parts is the increased strength when compared to other 3D-printed materials.
  • Most 3D-printed parts are made out of PLA or ABS which are relatively weak, meaning the parts cannot be used for structural purposes.

Properties of Carbon Fibers

• Exceptional Strength-to-Weight Ratio: Carbon fibers surpass steel in tensile strength while maintaining a much lighter weight.
• Superior Elastic Modulus: Comparable to or surpassing metals such as aluminum and steel, carbon fibers exhibit remarkable stiffness.
• Minimal Thermal Expansion: Carbon fibers experience little expansion or contraction with temperature changes, making them ideal for high-temperature uses.
• Chemical Resistance: Resistant to corrosion and chemical deterioration, carbon fibers boast enhanced durability in challenging conditions.
• Versatile Electrical Properties: Initially conductive, carbon fibers can be engineered to showcase semiconducting or insulating characteristics.

Pre-preg Carbon Fiber

Pre-preg carbon fiber refers to unidirectional carbon fiber sheets that have been impregnated with resin prior to use. 

Applications of Pre-preg Carbon Fiber

• Aerospace: Pre-preg carbon fiber is widely used in the aerospace industry for the manufacture of aircraft components, such as wings, fuselage, and other structural parts.
• Sports: Pre-preg carbon fiber is used in the manufacture of high-performance sports equipment, such as golf clubs, tennis racquets, and bicycles. 
  • The strength and stiffness of pre-preg carbon fiber provide improved performance for athletes.
• Automotive: Pre-preg carbon fiber is used in the automotive industry for the manufacture of high-performance racing car components, such as body panels, chassis, and suspension parts. 
  • The low weight and high strength of pre-preg carbon fiber make it ideal for use in the automotive industry.
• Renewable Energy Sector: Employed in wind turbine blade construction and solar panel frameworks to enhance energy efficiency and dependability.
• Maritime Sector: Utilized in boat hulls, masts, and rigging to lessen weight and enhance buoyancy and stability.

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