Fatigue and post-fatigue static crack characterisation of a wrinkled thick glass fibre laminate in a composite wind turbine blade
Author:
Funder
EUDP
Publisher
Elsevier BV
Subject
Industrial and Manufacturing Engineering,Mechanical Engineering,Mechanics of Materials,General Materials Science,Modeling and Simulation
Reference31 articles.
1. Database about blade faults;Branner,2014
2. Fractographic analysis of sandwich panels in a composite wind turbine blade using optical microscopy and X-ray computed tomography;Chen;Eng Fail Anal,2020
3. Multi-site crack initiation in local details of composite adhesive joints;Miao;Composites B,2022
4. Structural transverse cracking mechanisms of trailing edge regions in composite wind turbine blades;Miao;Compos Struct,2023
5. Study of fatigue damage in wind turbine blades;Marin;Eng Failure Anal,2009
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1. Compression–compression fatigue damage of wrinkled carbon/glass hybrid composite laminates;Composite Structures;2024-10
2. A developed fatigue analysis approach for composite wind turbine blade adhesive joints using finite-element submodeling technique;Engineering Failure Analysis;2024-10
3. Experimental investigation of trans-scale displacement responses of wrinkle defects in fiber-reinforced composite laminates;Journal of Reinforced Plastics and Composites;2024-08-16
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