Use Of Composite Materials In Military
The advanced composites industry or advanced composite materials industry is characterized by the use of expensive high performance resin systems and high strength high stiffness fiber reinforcement.
Use of composite materials in military. The individual components remain separate and distinct within. The increasing use of composites and innovations in material blends and fabrication has enabled composite component manufacturers to satisfy the need for military vehicle components. The properties that make frps desirable for use in defence applications are. Military grade composites are used in a number of applications for their low weight long life and ability to help protect people and equipment from harm.
Ceramic materials that can be used in different shapes can be bonded onto other composite backings made of high performance polyethylene aramid fibers for instance. Besides ceramics allow the use of cheap backings like glass fiber or standard armored metals steel aluminum and therefore result in relatively cheap concepts. Armoured vehicles have traditionally used steel armour for protected however this gives rise to heavy structures that provide logistical problems in. Use of composite materials in defence in the defence sector fibre reinforced polymer composites frps are used in application such as land systems military aircraft uavs naval vessels and weapons.
The rising use of composite materials and the advancements in material blends and their fabrication have allowed composite component manufacturers to meet the demanding requirements for military vehicle components. Origins of composite materials. The aerospace industry including military and commercial aircraft of all types is the. A composite material is any material made by combining two or more materials in a structure whereby materials remain separate.
Military vehicles such as airplanes helicopters and rockets placed a premium on high strength light weight materials. The rapid development and use of composite materials beginning in the 1940s had three main driving forces. The use of additive manufacturing techniques such as fused deposition modeling fdm and laser sintering ls in conjunction with composite materials is going to permit the development of more effective drones for security and military purposes.