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Creep behavior of additively manufactured high strength A205 aluminum alloy

Anup Kulkarni, Dheepa Srinivasan, Praveen Ravanappa, Vikram Jayaram, Praveen Kumar

2023Additive Manufacturing Letters10 citationsDOIOpen Access PDF

Abstract

A20X, an additively manufactured high-strength aluminum alloy, was studied for its creep behavior at 200°C via the conventional uniaxial method and a novel, small-scale cantilever bending creep test, wherein the 2D strain field was measured using digital image correlation. A fine-grained microstructure with nano-scaled precipitates of Ω (Al-Cu-Ag-Mg) and θ′ (Al-Cu) leads to a stable microstructure and excellent mechanical properties at 200 °C in the solutionized and aged condition. The alloy displayed creep-resistant behavior with minimum strain rates of the order of 10−8-10−6 s−1 at 200 °C at 120-180 MPa. Uniaxial creep equivalence with bending creep was established, and the excellent creep resistance was attributed to the nano-scaled precipitates, which were shown to pin the dislocations effectively. Interestingly, a single bending test was able to effectively generate both tension and compression creep curves using small specimens, thereby establishing its suitability for near-net-shaped additively manufactured components.

Topics & Concepts

CreepMaterials scienceAlloyComposite materialAluminiumMetallurgyAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesAluminum Alloys Composites Properties
Creep behavior of additively manufactured high strength A205 aluminum alloy | Litcius