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Second, the lay-up is heated, so that pyrolysis transforms the binder to relatively pure carbon. The binder loses volume in the process, causing voids to form; the addition of aggregate reduces this problem, but does not eliminate it.

C/C is a hard material that can be made highly resistant to thermal expansion, temperature gradients, and thermal cycling, depending on how the fibre scaffold is laid up and the quality/density of the matrix filler. Carbon–carbon materials retain their properties above 2000 °C. This temperature may be exceeded with the help of protective coatings to prevent oxidation.[6] The material has a density between 1.6 and 1.98 g/cm3.[7]

Chen, Pi-Yu, Ran Feng, Ying Xu, and Ji-Hua Zhu. 2023. "Recycling and Reutilization of Waste Carbon Fiber Reinforced Plastics: Current Status and Prospects" Polymers 15, no. 17: 3508. https://doi.org/10.3390/polym15173508

Chen, P. -Y., Feng, R., Xu, Y., & Zhu, J. -H. (2023). Recycling and Reutilization of Waste Carbon Fiber Reinforced Plastics: Current Status and Prospects. Polymers, 15(17), 3508. https://doi.org/10.3390/polym15173508

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Chen, P.-Y.; Feng, R.; Xu, Y.; Zhu, J.-H. Recycling and Reutilization of Waste Carbon Fiber Reinforced Plastics: Current Status and Prospects. Polymers 2023, 15, 3508. https://doi.org/10.3390/polym15173508

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Carbon brakes became widely available for commercial airplanes in the 1980s,[9] having been first used on the Concorde supersonic transport.

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A related non-ceramic carbon composite with uses in high-tech racing automotives is the carbotanium carbon–titanium composite used in the Zonda R and Huayra supercars made by the Italian motorcar company Pagani.

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Third, the voids are gradually filled by forcing a carbon-forming gas such as acetylene through the material at a high temperature, over the course of several days. This long heat treatment process also allows the carbon to form into larger graphite crystals, and is the major reason for the material's high cost. The gray "Reinforced Carbon–Carbon (RCC)" panels on the space shuttle's wing leading edges and nose cone cost NASA $100,000/sq ft to produce,[clarification needed] although much of this cost was a result of the advanced geometry and research costs associated with the panels. This stage can also include manufacturing of the finished product.[5]

Carbon fibre-reinforced silicon carbide (C/SiC) is a development of pure carbon–carbon that uses silicon carbide with carbon fibre. It is slightly denser than pure carbon-carbon and thought[by whom?] to be more durable.

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Carbon–carbon is well-suited to structural applications at high temperatures, or where thermal shock resistance and/or a low coefficient of thermal expansion is needed. While it is less brittle than many other ceramics, it lacks impact resistance; Space Shuttle Columbia was destroyed during atmospheric re-entry after one of its RCC panels was broken by the impact of a piece of polyurethane foam insulation that broke off from the Space Shuttle External Tank.

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Carbon fibre reinforced carbon[n 1] (CFRC[4]), carbon–carbon (C/C[2]), or reinforced carbon–carbon (RCC) is a composite material consisting of carbon fiber reinforcement in a matrix of graphite. It was developed for the reentry vehicles of intercontinental ballistic missiles, and is most widely known as the material for the nose cone and wing leading edges of the Space Shuttle orbiter. Carbon-carbon brake discs and brake pads have been the standard component of the brake systems of Formula One racing cars since the late 1970s; the first year carbon brakes were seen on a Formula One car was 1976.

Abstract: The extensive use of carbon fiber-reinforced plastics (CFRP) in aerospace, civil engineering, and other fields has resulted in a significant amount of waste, leading to serious environmental issues. Finding appropriate methods for recycling CFRP waste and effectively reusing recycled carbon fibers (rCFs) has become a challenging task. This paper presents an overview of the current status of CFRP waste and provides a systematic review and analysis of recycling technologies. In addition to discussing mechanical recycling, thermal decomposition, and chemical solvent degradation methods, the organic alkali/organic solvent method for recycling resins is also elucidated. By introducing the recycling conditions and outcomes of the organic alkali/organic solvent method, the study highlights its significance as a reference for carbon fiber recycling. Furthermore, the paper reviews the current state of rCFs utilization based on its application domains, focusing on research advancements in fiber composites and cementitious composites. Based on these findings, the paper summarizes the existing research limitations and identifies specific areas that require further attention in recycling techniques and rCFs utilization. Lastly, this review provides a prospect on the future of recycling and reusing CFRP waste. Keywords: carbon fiber reinforced plastics (CFRP) waste; recycled carbon fiber reinforced cementitious (rCFRC) composites; recycled carbon fiber reinforced plastics (rCFRP); recycling methods; reuse of recycled carbon fibers (rCFs)

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Chen P-Y, Feng R, Xu Y, Zhu J-H. Recycling and Reutilization of Waste Carbon Fiber Reinforced Plastics: Current Status and Prospects. Polymers. 2023; 15(17):3508. https://doi.org/10.3390/polym15173508

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It can be used in the brake disc and brake pads of high-performance road cars. The first car to use it was the Mercedes-Benz C215 Coupe F1 edition.[8] It is standard on the Bugatti Veyron and many Bentleys, Ferraris, Lamborghinis, Porsches, and the Corvette ZR1 and Z06. They are also offered as an optional upgrade on certain[which?] high performance[clarification needed] Audi cars, including the D3 S8, B7 RS4, C6 S6 and RS6, and the R8. The material is not used in Formula 1 because of its weight.

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First, material is laid up in its intended final shape, with carbon filament and/or cloth surrounded by an organic binder such as plastic or pitch. Often, coke or some other fine carbon aggregate is added to the binder mixture.