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Sheffield Plastics Polycarbonate Sheet offering light weight and break resistance

Polycarbonate plastic materials have a balance of helpful features including temp resistance, impact resistance and optical properties position polycarbonates between commodity plastic materials and engineering materials.
Polycarbonate is definitely a tough material. Even though it features extraordinary impact-resistance, it possesses reduced scratch-resistance and thus a hard coating may be applied to polycarbonate eye wear lenses and polycarbonate exterior motor vehicle components. The properties of polycarbonate are along the lines of those of polymethyl methacrylate (PMMA, acrylic), although polycarbonate is undoubtedly stronger, it is usable in a wider temperature range and is a bit more expensive. This plastic polymer is highly transparent to visible light and has better light transmission characteristics than most grades of glass.
Polycarbonate has a glass transition temperature of around 150 °C (302 °F), therefore it softens slowly above this point and flows above about 300°C (572 °F). Tools need to be held at warm to high temperatures, generally above 80 °C (176 °F) to make strain- and stress-free products.
Unlike almost all other thermoplastics, polycarbonate can undergo massive shape changes without cracking or breaking. As a result, it could be processed and formed   without needing to be heated using sheet metal techniques, for instance forming bends on a brake. For even sharp angle bends with a tight radius, no heating is usually necessary. This makes it useful for prototyping applications where transparent or electrically non-conductive parts are important, which can not be crafted from sheet metal. Understand that PMMA/Plexiglas, which happens to be similar in looks to polycarbonate, but is brittle and cannot be bent at room temperature.

The light weight of polycarbonate, compared with glass, has led to advancement of electronic view screens that replace glass with polycarbonate, for use in mobile and portable devices. Such displays include newer e-ink and several LCD screens, though CRT, plasma screen and other LCD technologies which still require glass for its higher melting temperature and its ability to be etched in finer detail.
Other types of items made out of Polycarbonate include durable, lightweight luggage, MP3/digital audio player cases, computer cases, police riot shields, instrument panels, and blender jars. Many toys and hobby goods are made of polycarbonate parts, e.g. fins, gyro mounts, and flybar locks for use with radio-controlled helicopters.
For use in applications subjected to weathering or UV-radiation, a special surface treatment maybe needed. This either can be a coating (e.g. for improved abrasion resistance), or perhaps the coextrusion for enhanced weathering resistance.
Bayer Makrolon Polycarbonate is a thermoplastic that starts as a solid plastic material in the form of small pellets. In a manufacturing process called injection molding, the pelletized resin is heated until they melt and become a very thick liquid. This liquid polycarbonate is then rapidly pushed into molds, compressed under high pressure and cooled to produce a finished product , that only takes about a minute to complete.

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Sheffield Plastics Polycarbonate Sheeting offering light weight and break resistance

Polycarbonate plastic products give you a balance of useful features including temperature resistance, impact resistance and optical properties position polycarbonates in between commodity plastics and engineering plastic materials.
Polycarbonate is a very sturdy material. Even though it features considerable impact-resistance, it possesses a lower scratch-resistance and so a hard coating can be applied to polycarbonate eyeglasses lenses as well as polycarbonate exterior automotive equipment. The properties associated with polycarbonate are generally comparable to those of Acrylic PMMA materials, yet , polycarbonate is definitely stronger, it is usable in a wider temperature range and is a bit more expensive. This plastic polymer is highly transparent to visible light and has better light transmission characteristics than many kinds of glass.
Polycarbonate carries a glass transition temperature near 150 °C (302 °F), as a result it softens slowly above this point and flows above about 300°C (572 °F). Tools should be held at warm to high temperatures, generally above 80 °C (176 °F) in order to make strain- and stress-free products.
Unlike most other thermoplastics, polycarbonate can undergo massive deformations without breaking. Hence, it is sometimes processed and formed   cold using sheet metal techniques, such as forming bends with a brake. For even sharp angle bends having a tight radius, no heating is usually necessary. This makes it attractive prototyping applications where transparent or electrically non-conductive parts are necessary, which can’t be crafted from sheet metal. Remember that PMMA/Plexiglas, which happens to be similar in looks to polycarbonate, but is brittle and cannot be bent without heating.
Polycarbonate is frequently used in eye protection, as well as in other projectile-resistant viewing and lighting applications that would normally require the use of glass, but require much greater impact-resistance. Several types of lenses are manufactured from polycarbonate, including automotive headlamp lenses, lighting lenses, sunglass/eyeglass lenses, swimming and SCUBA goggles, and safety goggles for use in sporting helmets/masks and police riot gear. Windscreens in small motorized vehicles are normally manufactured from polycarbonate, such as for motorcycles, ATVs, golf carts, and small planes and helicopters.

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Bayer Makrolon Polycarbonate Sheeting offering light weight and break resistance

Polycarbonate plastic products have a unique balance of beneficial features this includes temperature resistance, impact resistance and optical properties position polycarbonates in between commodity plastics and engineering plastics.
Polycarbonate is a very durable material. Though it offers increased impact-resistance, it possesses low scratch-resistance and thus a hard coating can be applied to polycarbonate eye protection and polycarbonate exterior motor vehicle components. The characteristics associated with polycarbonate are generally comparable to those of polymethyl methacrylate (PMMA, acrylic), except polycarbonate is stronger, it is usable in a wider temperature range and is a bit more expensive. This plastic polymer is highly transparent to visible light and has better light transmission characteristics than several types of glass.
Polycarbonate carries a glass transition temperature of around 150 °C (302 °F), therefore it softens gradually above this point and flows above about 300°C (572 °F). Tools must be held at high temperatures, generally above 80 °C (176 °F) to help with making strain- and stress-free products.
Unlike most thermoplastics, polycarbonate can undergo large shape changes without cracking or breaking. Due to this fact, it can be processed and formed   at room temperature using sheet metal techniques, for example forming bends with a brake. For even sharp angle bends having a tight radius, no heating is generally necessary. This makes it attractive prototyping applications where transparent or electrically non-conductive parts are required, which can’t be produced from sheet metal. Understand that PMMA/Plexiglas, which is similar in appearance to polycarbonate, but it is brittle and can’t be bent at room temperature.
Polycarbonate is commonly used in eye protection, and also in other projectile-resistant see through or lighting applications that would normally require the use of glass, but require higher impact-resistance. Many different types of lenses are created from polycarbonate, including automotive headlamp lenses, lighting lenses, sunglass/eyeglass lenses, swimming and SCUBA goggles, and safety goggles for use in sporting helmets/masks and police riot gear. Windscreens in small motorized vehicles are typically made out of polycarbonate, such as for motorcycles, ATVs, golf carts, and small planes and helicopters.

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Bayer Makrolon Polycarbonate Flat Sheet offering light weight and break resistance

Bayer Makrolon Polycarbonate products have a balance of useful features including high temperature resistance, impact resistance and optical properties position polycarbonates in between commodity plastic materials and engineering materials.
Polycarbonate is definitely a rugged material. Whilst it has outstanding impact-resistance, it possesses lower scratch-resistance and thus a hard coating is applied to polycarbonate eye wear and polycarbonate exterior auto components. The properties relating to polycarbonate are along the lines of those of Acrylic PMMA materials, except polycarbonate is actually stronger, it is usable in a wider temperature range and is a bit more expensive. This plastic polymer is highly transparent to visible light and it has better light transmission characteristics than several types of glass.
Polycarbonate has a glass transition temperature of around 150 °C (302 °F), therefore it softens gradually above this point and flows above about 300°C (572 °F). Tools ought to be held at warm to high temperatures, generally above 80 °C (176 °F) in order to make strain- and stress-free products.
Unlike many thermoplastics, polycarbonate can undergo massive deformations without cracking. Because of this, it may be processed and formed   cold using standard sheet metal techniques, which include forming bends with a brake. Even for sharp angle bends with a tight radius, no heating is usually necessary. This makes it attractive prototyping applications where transparent or electrically non-conductive parts are important, which may not be produced from sheet metal. Remember that PMMA/Plexiglas, which is similar in looks to polycarbonate, but it’s brittle and can’t be bent without heating.
Polycarbonate is frequently utilized in eye protection, in addition to other projectile-resistant see through applications that would normally indicate the use of glass, but require much greater impact-resistance. Many different types of lenses are created from polycarbonate, including automotive headlamp lenses, lighting lenses, sunglass/eyeglass lenses, swimming and SCUBA goggles, and safety goggles for use in sporting helmets/masks and police riot gear. Windscreens in small motorized vehicles are typically made up of polycarbonate, such as for motorcycles, ATVs, golf carts, and small planes and helicopters.

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