Your search keyword '"Hayeck M"' showing total 2 results

1. O.I.C.-Based Design of Aluminum Circular Hollow Sections under Compression or Pure Bending.

Author

Li, Liya, Dahboul, Sahar, Verma, Prachi, Dey, Pampa, Fafard, Mario, and Boissonnade, Nicolas

Subjects

ALUMINUM alloys, MICROSTRUCTURE, MECHANICAL behavior of materials, ELECTRIC conductivity, MAGNETIC fields

Abstract

This paper investigates the ultimate resistance of aluminum circular hollow sections (C.H.S.) under simple load cases as affected by local buckling and material strain hardening. Following the development of advanced non-linear shell finite element models and their validation against existing test data, extensive non-linear numerical analyses were carried out, varying several key parameters such as alloy types, load case (compression or pure bending) and various section dimensions. The numerical results are used as references to analyze the structural performance of aluminum C.H.S., and to assess the accuracy of design equations based on the Overall Interaction Concept (O.I.C.). The O.I.C.-based proposal is shown to yield more accurate, consistent, and continuous resistance predictions than Eurocode 9 recommendations. [ABSTRACT FROM AUTHOR]

Published

2023

2. Tests on Aluminum Sections with Simple and Complex Geometries.

Author

Verma, Prachi, Dahboul, Sahar, Li, Liya, Dey, Pampa, and Boissonnade, Nicolas

Subjects

ALUMINUM alloys, MECHANICAL behavior of materials, MICROSTRUCTURE, ELECTRIC conductivity, CONSTRUCTION materials

Abstract

Aluminum appears as a promising structural material as it shows many benefits such as a great strength to weight ratio, low maintenance costs, resistance to corrosion, recyclability, etc. Accordingly, characterizing the behavior and resistance of different aluminum sections under various loading conditions is essential. The current paper presents an experimental investigation on aluminum sections with simple and complex geometries to study the effect of cross-section shape on the buckling response of the aluminum sections. Firstly, eight tensile coupon tests were conducted on coupons of aluminum alloy 6061-T6 to accurately determine its material properties. Geometrical imperfections on the surface of each specimen were then measured using a 3D scanner. Further, eight stub column tests were also performed to study the behavior of I, H and complex cross-sections under pure compression. In addition to this, 12 cross-section tests under combined compression and bending are currently under way to study the buckling behavior of these specimens under eccentric compression. [ABSTRACT FROM AUTHOR]

Published

2023