The global aerospace composites market size is projected to reach USD 29.69 billion by 2026, exhibiting a CAGR of 9.27% during the forecast period. Heavy reliance on carbon fiber composites for manufacturing aircraft components will be the key growth driver for this market, states Fortune Business Insights™ in its report, titled “Aerospace Composites Market Size, Share & Industry Analysis, By Fiber Type (Carbon, Glass, Aramid, and Others), By Aircraft (Commercial Aircrafts, Military Fixed Wings, Business Aircrafts & General Aviation, Jet Engines, Helicopter and others), and Regional Forecast, 2019-2026”. Carbon fiber composites replaced aluminium as the primary material for making airplanes a few decades ago as aluminium was proving economically infeasible for aircraft manufacturers. The switch to carbon fiber was based on the material’s lightweight properties as well as high durability and tensile strength. Moreover, carbon fiber, unlike other metals, is resistant to corrosion and fatigue and therefore, reduces maintenance costs of aircrafts. For example, Boeing utilizes carbon fiber composites in making all parts of its iconic 787 Dreamliner to keep it lightweight and sturdy. Thus, emergence of carbon fiber has augured well for the market for aerospace composites.
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https://www.fortunebusinessinsights.com/aerospace-composites-market-102680 The global aerospace composites market size is projected to reach USD 29.69 billion by 2026, exhibiting a CAGR of 9.27% during the forecast period. Heavy reliance on carbon fiber composites for manufacturing aircraft components will be the key growth driver for this market, states Fortune Business Insights™ in its report, titled “Aerospace Composites Market Size, Share & Industry Analysis, By Fiber Type (Carbon, Glass, Aramid, and Others), By Aircraft (Commercial Aircrafts, Military Fixed Wings, Business Aircrafts & General Aviation, Jet Engines, Helicopter and others), and Regional Forecast, 2019-2026”. Carbon fiber composites replaced aluminium as the primary material for making airplanes a few decades ago as aluminium was proving economically infeasible for aircraft manufacturers. The switch to carbon fiber was based on the material’s lightweight properties as well as high durability and tensile strength. Moreover, carbon fiber, unlike other metals, is resistant to corrosion and fatigue and therefore, reduces maintenance costs of aircrafts. For example, Boeing utilizes carbon fiber composites in making all parts of its iconic 787 Dreamliner to keep it lightweight and sturdy. Thus, emergence of carbon fiber has augured well for the market for aerospace composites.
information Source - https://www.fortunebusinessinsights.com/aerospace-composites-market-102680