made of fiberglass Fiberglass is versatile because it is lightweight, strong, weather-resistant, and can have a variety of surface textures. During World War II, fiberglass was developed as a replacement for the molded plywood used in aircraft
radomes (fiberglass being
transparent to
microwaves). Its first main civilian application was for the building of
boats and sports car bodies, where it gained acceptance in the 1950s. Its use has broadened to the automotive and sport equipment sectors. In the production of some products, such as aircraft, carbon fiber is now used instead of fiberglass, which is stronger by volume and weight. Advanced manufacturing techniques such as
pre-pregs and
fiber rovings extend fiberglass's applications and the tensile strength possible with fiber-reinforced plastics. Fiberglass is also used in the
telecommunications industry for
shrouding
antennas, due to its
RF permeability and low signal
attenuation properties. It may also be used to conceal other equipment where no signal permeability is required, such as equipment cabinets and
steel support structures, due to the ease with which it can be molded and painted to blend with existing structures and surfaces. Other uses include sheet-form electrical insulators and structural components commonly found in power-industry products. Because of fiberglass's lightweight and durability, it is often used in protective equipment such as helmets. Many sports use fiberglass protective gear, such as goaltenders' and catchers' masks.
Storage tanks Storage tanks can be made of fiberglass with capacities up to about 300
tonnes. Smaller tanks can be made with chopped strand mat cast over a thermoplastic inner tank which acts as a
preform during construction. Much more reliable tanks are made using woven mat or filament wound fiber, with the fiber orientation at right angles to the
hoop stress imposed in the sidewall by the contents. Such tanks tend to be used for chemical storage because the plastic liner (often
polypropylene) is resistant to a wide range of corrosive chemicals. Fiberglass is also used for
septic tanks.
House building Glass-reinforced plastics are also used to produce house building components such as roofing laminate, door surrounds, over-door canopies, window canopies and dormers, chimneys,
coping systems, and heads with keystones and sills. The material's reduced weight and easier handling, compared to wood or metal, allows faster installation. Mass-produced fiberglass brick-effect panels can be used in the construction of composite housing, and can include insulation to reduce heat loss.
Oil and gas artificial lift systems In
rod pumping applications, fiberglass rods are often used for their high tensile strength to weight ratio. Fiberglass rods provide an advantage over steel rods because they stretch more elastically (lower
Young's modulus) than steel for a given weight, meaning more oil can be lifted from the hydrocarbon reservoir to the surface with each stroke, all while reducing the load on the pumping unit. Fiberglass rods must be kept in tension, however, as they frequently part if placed in even a small amount of compression. The buoyancy of the rods within a fluid amplifies this tendency.
Piping GRP and GRE pipe can be used in a variety of above- and below-ground systems, including those for desalination, water treatment, water distribution networks, chemical process plants, water used for firefighting, hot and cold drinking water, wastewater/sewage, municipal waste and
liquified petroleum gas.
Boating s made of fiberglass Fiberglass composite boats have been made since the early 1940s, and many sailing vessels made after 1950 were built using the fiberglass
lay-up process. As of 2022, boats continue to be made with fiberglass, though more advanced techniques such as
vacuum bag moulding are used in the construction process.
Armour Though most bullet-resistant armours are made using different textiles, fiberglass composites have been shown to be effective as ballistic armor. ==Construction methods==