Litcius/Paper detail

Deformation behavior of aluminum alloy rivets for aerospace applications

Zahra Silvayeh, Markus Brillinger, Josef Domitner

2024Journal of Materials Research and Technology15 citationsDOIOpen Access PDF

Abstract

Solid rivets made of high-strength aluminum alloys are often used for mechanical joining of aircraft structures. For numerical modeling of riveting processes the detailed description of the deformation behavior of the rivets is of utmost importance; however, only very little reliable material data are available. Therefore, this study reviews and investigates the deformation behavior of commercial MS20426AD3-5 countersunk rivets made of aluminum alloy AA-2117-T4 as typically used in aerospace applications. The self-consistent procedure for determining the material-specific flow curve includes (i) the exact preparation of cylindrical samples, (ii) compression testing of the samples at testing speeds of 0.05 mm/s, 0.5 mm/s and 5 mm/s, and (iii) inverse numerical modeling of the testing procedure. In general, the compliance of the testing setup must be considered for obtaining reliable flow curves, especially when testing small samples. The determined flow curve of aluminum alloy AA-2117-T4 showed higher yield stress and more distinct initial strain hardening than most of the flow curves published in literature. Although the flow curve did not show any significant strain rate dependency, notable softening due to deformation-induced adiabatic heating of the compressed sample was observed at the highest testing speed. However, the fracture strain seems to be strain rate-dependent, because samples deformed at the low testing speed did not show any signs of macroscopic fracture, whereas local fracture occurred in samples deformed at the medium and high testing speeds.

Topics & Concepts

RivetMaterials scienceAerospaceAlloyDeformation (meteorology)AluminiumMetallurgyComposite materialAerospace engineeringEngineeringAluminum Alloy Microstructure PropertiesMetal Forming Simulation TechniquesMetallurgy and Material Forming