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Composite materials

A consists of two or more with different . They are combined to produce a material with improved properties. This means that they have a broad range of uses.

Most composite materials have two components:

  • the
  • the , which binds the reinforcement together

The table shows some examples of composite materials.

Composite materialReinforcementMatrix
Reinforced concreteSteelConcrete
FibreglassGlass fibresPolymer resin
Carbon fibre reinforced polymerCarbon fibresPolymer resin
ChipboardWood chipsResin glue
Composite materialReinforced concrete
ReinforcementSteel
MatrixConcrete
Composite materialFibreglass
ReinforcementGlass fibres
MatrixPolymer resin
Composite materialCarbon fibre reinforced polymer
ReinforcementCarbon fibres
MatrixPolymer resin
Composite materialChipboard
ReinforcementWood chips
MatrixResin glue

It is often possible to separate the reinforcement from the matrix by physical processes. For example, concrete can be broken up using machinery. This is one stage in recycling the components of concrete.

Reinforced concrete

The properties of concrete can be improved by reinforcing it with steel rods or mesh. The of concrete is higher than its , but the tensile strength of steel is higher than its compressive strength. The combination of the two creates a material that is strong in tension and in . This allows reinforced concrete to be strong and slightly flexible, which is important when constructing large buildings and structures.

Fibre reinforced plastics

Fibres are embedded in a polymer matrix. The fibres can be made of glass (fibreglass), aramid (Kevlar) and carbon (). These composites are often used for sporting equipment such as tennis rackets and hockey sticks.

The in these composite materials have a low . They are strong in , so they are not easily stretched, but they are flexible. The polymer , which binds the fibres together, is not strong but it is stiff. The composite materials show a combination of these properties. They are strong, stiff and lightweight.