B. Magnin scite author profile

Recent thermomechanical modeling to calculate the stress field in industrially direct-chill (DC) castaluminum slabs has been successful, but lack of material data limits the accuracy of these calculations. Therefore, the constitutive behavior of three aluminum alloys (AA1050, AA3104, and AA5182) was determined in the as-cast condition using tensile tests at low strain rates and from room temperature to solidus temperature. The parameters of two constitutive equations, the extended Ludwik equation and a combination of the Sellars-Tegart equation with a hardening law, were determined. In order to study the effect of recovery, the constitutive behavior after prestraining at higher temperatures was also investigated. To evaluate the quantified constitutive equations, tensile tests were performed simulating the deformation and cooling history experienced by the material during casting. It is concluded that both constitutive equations perform well, but the combined hardening-Sellars-Tegart (HST) equation has temperature-independent parameters, which makes it easier to implement in a DC casting model. Further, the deformation history of the ingot should be taken into account for accurate stress calculations.

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Thermomechanical Effects in DC Casting of Aluminium Alloy: A Numerical Benchmark Study

Drezet

Burghardt²,

Fjær³

et al. 2000

MSF

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Aluminium Extrusion Alloy Selection for Crashworthiness Energy Absorption and Failure

Rebuffet¹,

Morère²,

Magnin³

et al. 2002

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Mechanical Behaviour of DC Cast AA3104 and AA5182 under Semi‐Solid Conditions

Haaften

Magnin²,

Kool

et al. 2000

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B. Magnin

Ductility and Rheology of an Al-4.5% Cu Alloy from Room Temperature to Coherency Temperature

Constitutive behavior of as-cast AA1050, AA3104, and AA5182

Thermomechanical Effects in DC Casting of Aluminium Alloy: A Numerical Benchmark Study

Aluminium Extrusion Alloy Selection for Crashworthiness Energy Absorption and Failure

Mechanical Behaviour of DC Cast AA3104 and AA5182 under Semi‐Solid Conditions

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