Electronic components Polycarbonate is mainly used for electronic applications that capitalize on its collective safety features. A good electrical insulator with heat-resistant and flame-retardant properties, it is used in products associated with power systems and telecommunications hardware. It can serve as a
dielectric in high-stability
capacitors.
Construction materials The second largest consumer of polycarbonates is the construction industry, e.g. for domelights, flat or curved glazing, roofing sheets and
sound walls. Polycarbonates are used to create materials used in buildings that must be durable but light.
3D printing Polycarbonates are used extensively in 3D FDM printing, producing durable strong plastic products with a high melting point. Polycarbonate is relatively difficult for casual hobbyists to print compared to thermoplastics such as
Polylactic acid (PLA) or
Acrylonitrile butadiene styrene (ABS) because of the high melting point, difficulty with print bed adhesion, tendency to warp during printing, and tendency to absorb moisture in humid environments. Despite these issues, 3D printing using polycarbonates is common in the professional community.
Data storage A major polycarbonate market is the production of
compact discs,
DVDs, and
Blu-ray discs. These discs are produced by injection-molding polycarbonate into a mold cavity that has on one side a metal stamper containing a negative image of the disc data, while the other mold side is a mirrored surface. Typical products of sheet/film production include applications in advertisement (signs, displays, poster protection).
Niche applications Polycarbonate, being a versatile material with attractive processing and physical properties, has attracted myriad smaller applications. The use of injection molded drinking bottles, glasses and food containers is common, but the use of BPA in the manufacture of polycarbonate has stirred concerns (see
Potential hazards in food contact applications), leading to development and use of "BPA-free" plastics in various formulations. Polycarbonate is commonly used in eye protection, as well as in other projectile-resistant viewing and lighting applications that would normally indicate the use of
glass, but require much higher impact-resistance. Polycarbonate lenses also protect the eye from
UV light. Many kinds of lenses are manufactured from polycarbonate, including automotive headlamp lenses, lighting lenses,
sunglass/
eyeglass lenses,
camera lenses, swimming goggles and SCUBA masks, and safety glasses/goggles/visors including visors in sporting helmets/masks and police
riot gear (helmet visors, riot shields, etc.). Windscreens in small motorized vehicles are commonly made of polycarbonate, such as for motorcycles, ATVs, golf carts, and small airplanes and helicopters. The light weight of polycarbonate as opposed to glass has led to development of electronic display screens that replace glass with polycarbonate, for use in mobile and portable devices. Such displays include newer
e-ink and some LCD screens, though CRT, plasma screen and other LCD technologies generally still require glass for its higher melting temperature and its ability to be etched in finer detail. As more and more governments are restricting the use of glass in pubs and clubs due to the increased incidence of
glassings, polycarbonate glasses are becoming popular for serving alcohol because of their strength, durability, and glass-like feel. piston filler made of polycarbonate and stainless steel, launched in 1966 and still in production Other miscellaneous items include durable, lightweight luggage,
MP3/digital audio player cases,
ocarinas, computer cases,
riot shields, instrument panels, tealight candle containers and food blender jars. Many toys and hobby items are made from polycarbonate parts, like fins, gyro mounts, and flybar locks in
radio-controlled helicopters, and transparent
LEGO (
ABS is used for opaque pieces). Standard polycarbonate resins are not suitable for long term exposure to UV radiation. To overcome this, the primary resin can have UV stabilisers added. These grades are sold as UV stabilized polycarbonate to injection moulding and extrusion companies. Other applications, including polycarbonate sheets, may have the anti-UV layer added as a special coating or a
coextrusion for enhanced
weathering resistance. Polycarbonate is also used as a printing substrate for
nameplate and other forms of industrial grade under printed products. The polycarbonate provides a barrier to wear, the elements, and fading.
Medical applications Many polycarbonate grades are used in medical applications and comply with both ISO 10993-1 and USP Class VI standards (occasionally referred to as PC-ISO). Class VI is the most stringent of the six USP ratings. These grades can be sterilized using steam at 120 °C,
gamma radiation, or by the
ethylene oxide (EtO) method. Trinseo strictly limits all its plastics with regard to medical applications. Aliphatic polycarbonates have been developed with improved biocompatibility and degradability for nanomedicine applications.
Mobile phones Some smartphone manufacturers use polycarbonate. Nokia used polycarbonate in their phones starting with the
N9's unibody case in 2011. This practice continued with various phones in the
Lumia series. Samsung started using polycarbonate with
Galaxy S III's
hyperglaze-branded removable battery cover in 2012. This practice continues with various phones in the
Galaxy series. Apple started using polycarbonate with the
iPhone 5C's
unibody case in 2013. Benefits over glass and metal back covers include durability against shattering (advantage over glass), bending and scratching (advantage over metal), shock absorption, low manufacturing costs, and no interference with radio signals and
wireless charging (advantage over metal). Polycarbonate back covers are available in glossy or matte
surface textures. ==History==