Buckling and Post-Buckling Behaviors of a Variable Stiffness Composite Laminated Wing Box Structure

The buckling and post-buckling behaviors of variable stiffness composite laminates (VSCL) with curvilinear fibers were investigated and compared with constant stiffness composite laminates (CSCL) with straight fibers. A VSCL box structure was evaluated under a pure bending moment. The results of the...

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Veröffentlicht in:	Applied composite materials 2018-04, Vol.25 (2), p.449-467
Hauptverfasser:	Wang, Peiyan, Huang, Xinting, Wang, Zhongnan, Geng, Xiaoliang, Wang, Yuansheng
Format:	Artikel
Sprache:	eng
Schlagworte:	Bearing capacity Bending moments Buckling Characterization and Evaluation of Materials Chemistry and Materials Science Classical Mechanics Failure modes Fractals Industrial Chemistry/Chemical Engineering Laminated plate theory Laminates Materials Science Plate theory Plates (structural members) Polymer Sciences Postbuckling Simulation Stiffness Wing boxes
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container_title	Applied composite materials
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creator	Wang, Peiyan Huang, Xinting Wang, Zhongnan Geng, Xiaoliang Wang, Yuansheng
description	The buckling and post-buckling behaviors of variable stiffness composite laminates (VSCL) with curvilinear fibers were investigated and compared with constant stiffness composite laminates (CSCL) with straight fibers. A VSCL box structure was evaluated under a pure bending moment. The results of the comparative test showed that the critical buckling load of the VSCL box was approximately 3% higher than that of the CSCL box. However, the post-buckling load-bearing capacity was similar due to the layup angle and the immature status of the material processing technology. The properties of the VSCL and CSCL boxes under a pure bending moment were simulated using the Hashin criterion and cohesive interface elements. The simulation results are consistent with the experimental results in stiffness, critical buckling load and failure modes but not in post-buckling load capacity. The results of the experiment, the simulation and laminated plate theory show that VSCL greatly improves the critical buckling load but has little influence on the post-buckling load-bearing capacity.
doi_str_mv	10.1007/s10443-017-9643-3
format	Article
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A VSCL box structure was evaluated under a pure bending moment. The results of the comparative test showed that the critical buckling load of the VSCL box was approximately 3% higher than that of the CSCL box. However, the post-buckling load-bearing capacity was similar due to the layup angle and the immature status of the material processing technology. The properties of the VSCL and CSCL boxes under a pure bending moment were simulated using the Hashin criterion and cohesive interface elements. The simulation results are consistent with the experimental results in stiffness, critical buckling load and failure modes but not in post-buckling load capacity. 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subjects	Bearing capacity Bending moments Buckling Characterization and Evaluation of Materials Chemistry and Materials Science Classical Mechanics Failure modes Fractals Industrial Chemistry/Chemical Engineering Laminated plate theory Laminates Materials Science Plate theory Plates (structural members) Polymer Sciences Postbuckling Simulation Stiffness Wing boxes
title	Buckling and Post-Buckling Behaviors of a Variable Stiffness Composite Laminated Wing Box Structure
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