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Attia, A., Saad-Eldeen, S., ELafandi, M., El-Kilani, H. (2022). Structural Response Analysis of Experimentally Tested Aluminum Cracked Panels under Compressive Load. Port-Said Engineering Research Journal, 26(3), 74-92. doi: 10.21608/pserj.2022.133315.1178
Ashraf Attia; Saad Bahey-Eldeen Saad-Eldeen; Mostafa ELafandi; Heba Sayed El-Kilani. "Structural Response Analysis of Experimentally Tested Aluminum Cracked Panels under Compressive Load". Port-Said Engineering Research Journal, 26, 3, 2022, 74-92. doi: 10.21608/pserj.2022.133315.1178
Attia, A., Saad-Eldeen, S., ELafandi, M., El-Kilani, H. (2022). 'Structural Response Analysis of Experimentally Tested Aluminum Cracked Panels under Compressive Load', Port-Said Engineering Research Journal, 26(3), pp. 74-92. doi: 10.21608/pserj.2022.133315.1178
Attia, A., Saad-Eldeen, S., ELafandi, M., El-Kilani, H. Structural Response Analysis of Experimentally Tested Aluminum Cracked Panels under Compressive Load. Port-Said Engineering Research Journal, 2022; 26(3): 74-92. doi: 10.21608/pserj.2022.133315.1178

Structural Response Analysis of Experimentally Tested Aluminum Cracked Panels under Compressive Load

Article 8, Volume 26, Issue 3, September 2022, Page 74-92  XML PDF (1.8 MB)
Document Type: Original Article
DOI: 10.21608/pserj.2022.133315.1178
Authors
Ashraf Attia email orcid 1; Saad Bahey-Eldeen Saad-Eldeenorcid 2; Mostafa ELafandi3; Heba Sayed El-Kilaniorcid 4
1Naval Architecture and marine engineering, Faculty of engineering, port said University, Egypt
2Port Fouad-Port Said
3Naval Architecture and marine engineering, Egyptian Navy Shipyard
4Naval Architecture and Marine Engineering, Faculty of Engineering, Port Said University
Abstract
An experimental investigation is carried out to evaluate the ultimate compressive capacity of welded stiffened aluminum panels in alloy 5083-H116 subjected to uniaxial compressive load along the short edge. A tensile test is carried out to find out the real material properties. Five full-scale stiffened panel specimens, one of them is intact and locked cracks are produced in the other four panels. A global survey of the initial geometric imperfections is performed before conducting the compressive test. Through-thickness locked cracks are located either in the center or quarter of the plate between the two attached stiffeners. The panels are tested, and their progressive collapse behavior is reported. The panels failed by two different deformation modes: stiffener tripping and local buckling of the plate. The load-shortening and load-lateral displacement relations are presented, and concluding remarks are stated regarding the effect of locked crack’s location, orientation and initial imperfection on the compressive capacity of welded aluminum panels.
Keywords
Experiment; Panels; Aluminum; Crack; Compressive Load
Main Subjects
Navel and Marine Engineering
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