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Covestro Develops High-tech Material For Mobile Electronic Devices

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Covestro Develops High-tech Material For Mobile Electronic Devices
Covestro Develops High-tech Material For Mobile Electronic Devices

Video: Covestro Develops High-tech Material For Mobile Electronic Devices

Отличия серверных жестких дисков от десктопных
Video: Covestro at CES 2020 2023, February
Anonim

The nucleus of composites called Covestro CFRTP (continuous fiber-reinforced thermoplastic composites) are unidirectionally reinforced films made of endless carbon fibers (UD films). Several layers of the UD films are layered on top of one another, cut and then laminated. The result is extremely stiff and lightweight composite panels without warping or shrinking. The number of layers, their direction and stacking order can be optimized for the respective application. In contrast to small series production from thermoset materials, Covestro CFRTP are suitable for cost-effective and flexible mass production. The supply chains are clearly defined. Covestro CFRTP sheets can be easily transported without cooling or special treatment. At the customer, further processing takes place using thermoforming,Injection molding, CNC milling or other processes. Additional design features can be added at this time or later. Unlike thermoset materials, the composites can simply be recycled at the end of their useful life. The composites open up product designers an unprecedented freedom of design. Different combinations of resin and fibers can be used for optical effects, and textures can also be created, for example in tools or by sandblasting, CNC milling or laser cutting. Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)(qui)(qui)(qui)(qui)(qui)(qui)CNC milling or other processes. Additional design features can be added at this time or later. Unlike thermoset materials, the composites can simply be recycled at the end of their useful life. The composites open up product designers an unprecedented freedom of design. Different combinations of resin and fibers can be used for optical effects, and textures can also be created, for example in tools or by sandblasting, CNC milling or laser cutting. Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)CNC milling or other processes. Additional design features can be added at this time or later. Unlike thermoset materials, the composites can simply be recycled at the end of their useful life. The composites open up product designers an unprecedented freedom of design. Different combinations of resin and fibers can be used for optical effects, and textures can also be created, for example in tools or by sandblasting, CNC milling or laser cutting. Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)(qui)(qui)Additional design features can be added at this time or later. Unlike thermoset materials, the composites can simply be recycled at the end of their useful life. The composites open up product designers an unprecedented freedom of design. Different combinations of resin and fibers can be used for optical effects, and textures can also be created, for example in tools or by sandblasting, CNC milling or laser cutting. Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)Additional design features can be added at this time or later. Unlike thermoset materials, the composites can simply be recycled at the end of their useful life. The composites open up product designers an unprecedented freedom of design. Different combinations of resin and fibers can be used for optical effects, and textures can also be created, for example in tools or by sandblasting, CNC milling or laser cutting. Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)(qui)(qui)Unlike thermoset materials, the composites can simply be recycled at the end of their useful life. The composites open up product designers an unprecedented freedom of design. Different combinations of resin and fibers can be used for optical effects, and textures can also be created, for example in tools or by sandblasting, CNC milling or laser cutting. Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)Unlike thermoset materials, the composites can simply be recycled at the end of their useful life. The composites open up product designers an unprecedented freedom of design. Different combinations of resin and fibers can be used for optical effects, and textures can also be created, for example in tools or by sandblasting, CNC milling or laser cutting. Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)The composites open up product designers an unprecedented freedom of design. Different combinations of resin and fibers can be used for optical effects, and textures can also be created, for example in tools or by sandblasting, CNC milling or laser cutting. Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)The composites open up product designers an unprecedented freedom of design. Different combinations of resin and fibers can be used for optical effects, and textures can also be created, for example in tools or by sandblasting, CNC milling or laser cutting. Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)Further possibilities arise from painting or various printing and embossing processes. Openings and functions can be integrated into the components themselves. Changes in wall thickness are just as possible as the "installation" of windows that are transparent to RF (radio frequency) radiation. (qui)

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