Here is an article written by our engineering team that will guide you through some design considerations for part fabrication using carbon fibre composites. The exceptional mechanical properties of carbon fibre composites make it the material of choice for lightweight and high-performance applications such as aircrafts and race cars. Given its excellent mechanical properties, use-cases of carbon fibre and related composites are endless!
Carbon fibre is a polymer and is sometimes known as graphite fibre. It is a very strong yet lightweight material, five-times stronger than steel and twice as stiff. Though carbon fibre is stronger and stiffer than steel, it is lighter than the latter, making it the ideal manufacturing material for many parts that require weight reduction or a high strength to weight ratio.
Carbon fibre is made of thin, strong crystalline filaments of carbon that is used to strengthen material. It can be thinner than a strand of human hair and gets its strength when twisted together like yarn. It can then be woven together to form a cloth and laid over a mould to be coated in resin or plastic before it finally takes the desired shape.
Carbon fibre reinforced polymers are composite materials which rely on the carbon fibre to provide the strength and stiffness while the polymer provides a cohesive matrix to protect and hold the fibres together and provides some toughness. They can be engineered to achieve mass reductions not achievable by the metals. Since these are artificially composited materials their properties and performance can be tailored to the application through varying strength, length, directionality and amount of the reinforcing fibres and in the selection of the polymer matrix.
Carbon fibre composite
As the thickness of the carbon fibre increases, its flexibility decreases as it becomes more rigid. Therefore, a thicker carbon fibre component would be less vulnerable to fatigue and impact damage.
While carbon fibre sheets of thickness less than 0.05” are more suitable for very light structural applications such as surface finishing, a sheet of thickness 0.07” will be able to support light components such as gauges and controls with no backing required. Carbon fibre sheets of thickness 0.09” are ideal for robotic and drone applications while thicker sheets can be used to build production tools and machinery etc.
For applications where weight is a critical element, a sandwich structure may prove to be useful. A composite sandwich sheet combines the superior strength and stiffness properties of carbon fibre with a lower density core material to provide a much higher stiffness to weight ratio than a standard carbon fibre sheet (click here to learn more). The material is commonly used in automotive, truck and mass transit industry due to its superior bending stiffness.
Different carbon fibre sandwich cores
Corners are points of stress concentration making them vulnerable to failure. A smaller corner radius can significantly reduce the ultimate strength of the carbon fibre structure due to stress concentration around the corner area. The stress concentration factor increases when the corner radius decreases. Radial stress on the carbon fibre sheet decreases with increasing corner radius therefore, the strength can be increased by utilizing a larger corner radius.
Carbon fibre composite components are manufactured using a moulding process. Moulds are used to define the shape of the composite parts. The graphite composite part will pick up all shapes and features of the moulds; therefore, the quality of the part is heavily influenced by the quality of the mould.
The selection of a proper manufacturing method is dependent on the material used, production volume and complexity of the structure.
A few common manufacturing methods are listed below.