Ramona Tosone scite author profile

Precipitation-hardened aluminium alloys typically obtain their strength by forming second-phase particles, which, however, often have a negative effect on formability. To enable both lightweight construction and forming of complex parts such as body panels, high strength and formability are required simultaneously. Cluster hardening is a promising approach to achieve this. Here, we show that short thermal spikes, denoted as up-quenching, increase aging kinetics, which we attribute to the repeated process of vacancies being formed at high temperatures and retained when cooled to lower temperatures. Combined with further heat treatment, the up-quenching process promotes rapid and extensive cluster formation in Al-Mg-Si alloys, which in turn generates significant strengthening at industrially relevant heat treatment time scales. The high elongation values also observed are attributed to reduced solute depleted zones along grain boundaries.

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Giant Hardening Response in AlMgZn(Cu) Alloys

Stemper

Tunes

Dumitraschkewitz

et al. 2020

SSRN Journal

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AMAG CrossAlloy®—A Unique Aluminum Alloy Concept for Lightweighting the Future

Schmid¹,

Stemper²,

Tosone³

2023

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Ramona Tosone

Giant hardening response in AlMgZn(Cu) alloys

On the potential of aluminum crossover alloys

Enhanced aging kinetics in Al-Mg-Si alloys by up-quenching

Giant Hardening Response in AlMgZn(Cu) Alloys

AMAG CrossAlloy®—A Unique Aluminum Alloy Concept for Lightweighting the Future

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