Abstract
The prebuckling and postbuckling behavior of two composite tow-steered shells with small cutouts is assessed using nonlinear dynamic finite element analyses and compared in detail with experimental measurements. The cylindrical shells were manufactured without cutouts using an automated fiber placement system, where the shells’ fiber orientation angles vary continuously around the shell circumference from ±10 degrees on the axially stiff crown and keel, to ±45 degrees on the shear-stiff sides. The first shell with overlaps has laminate thickness variations on the crown and keel that result from application of all 24 tows during each pass of the fiber placement system. The second shell without overlaps uses the fiber placement system’s tow drop/add capability to achieve a more uniform shell wall thickness. An unreinforced cutout representing a passenger door on a commercial aircraft fuselage is machined into the side of each of the two shells. These shells with cutouts were tested in axial compression and buckled elastically in previous work. Detailed nonlinear finite element analysis results are compared with their corresponding measured local load-displacement and load-strain responses in prebuckling, at global buckling, and into a stable postbuckled state. Test data from displacement transducers, strain gages, and digital image correlation are extracted at the centers of the crown and keel, and at the middles of the top and left edges of the cutout. The agreement between these measured and analytical local responses is excellent in prebuckling through global buckling, and very good from global buckling through postbuckling. As such, the excellent overall correlation observed here increases confidence in applying tow-steered composites in operational vehicles.
Original language | English |
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Title of host publication | AIAA SCITECH 2023 Forum |
Publisher | American Institute of Aeronautics and Astronautics Inc. (AIAA) |
ISBN (Electronic) | 9781624106996 |
DOIs | |
Publication status | Published - 19 Jan 2023 |
Event | AIAA SciTech Forum 2023 - National Harbor, United States Duration: 23 Jan 2023 → 27 Jan 2023 |
Conference
Conference | AIAA SciTech Forum 2023 |
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Country/Territory | United States |
City | National Harbor |
Period | 23/01/23 → 27/01/23 |
Keywords
- shells
- buckling
- strain
- experimental mechanics
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Royal Academy of Engineering Research Fellow
Groh, R. (Recipient), 2018
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