Experimental and Theoretical Analysis of Carbon Fiber Filament Wound Tubes with Symmetric Winding Angle under Tensional Loading

Qi Xiao; Jiang Sun

doi:10.4028/www.scientific.net/AMR.341-342.276

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 341-342Experimental and Theoretical Analysis of Carbon...

Experimental and Theoretical Analysis of Carbon Fiber Filament Wound Tubes with Symmetric Winding Angle under Tensional Loading

Abstract:

Carbon fiber composite tubes with symmetric winding angles were experimented under tensional loading and theoretically calculated using classical laminate theory. The experimental result showed that the axial stiffness of filament wound tubes without woven fiber was a little higher than that of filament wound tubes with woven fibers. In addition, the theoretical calculation results of axial stiffness had a good agreement with the experimental results of filament wound tubes without woven fiber.