Raj Kumar Mishra scite author profile

Current commercial magnesium extrusion alloys do not offer desirable combinations of strength, ductility, and extrusion speed for automotive structural applications. The effect of small additions of cerium (Ce) to pure magnesium (Mg) and Mg-3 pct Al alloy extruded tubes has been studied. The results suggest that 0.2 pct Ce addition can significantly improve the extrudability and mechanical properties of the Mg extrusions. The improvement in mechanical properties is due to grain refinement and dispersion strengthening provided by the Mg 12 Ce particles and the beneficial texture obtained. Higher Ce contents further increase strength, but significantly reduce ductility and cause excessive surface oxidation during extrusion. The beneficial effect of 0.2 pct Ce on mechanical properties of pure Mg is not observed when it is added to Mg-3 pct Al alloy, due to the higher affinity of Ce to Al to form the Al 11 Ce 3 phase in the MgAl-Ce ternary alloys. The Mg-0.2 pct Ce alloy is a promising base alloy for further development in automotive applications; however, Al should be avoided in Mg-Ce-based extrusion alloys.

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An experimental and numerical study of necking initiation in aluminium alloy tubes during hydroforming

Kulkarni

Biswas

Narasimhan

et al. 2004

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Flow stress and work hardening of Mg-Y alloys

Kula

Jia

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et al. 2017

International Journal of Plasticity

117

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Raj Kumar Mishra

Material flow and microstructural evolution during friction stir spot welding of AZ31 magnesium alloy

Microstructure and Mechanical Properties of Extruded Magnesium-Aluminum-Cerium Alloy Tubes

Basic and modern concepts on cholinergic receptor: A review

An experimental and numerical study of necking initiation in aluminium alloy tubes during hydroforming

Flow stress and work hardening of Mg-Y alloys

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