An innovative method for aluminium recycling has been boosted by research showing the microscopic changes that take place when molten alloys cool.
University of Birmingham School of Metallurgy and Materials researcher Dr Biao Cai used sophisticated high-speed X-ray imaging to record the formation of micro-crystals as alloys cool and solidify, under a magnetic field.
A mathematical model was developed by his collaborator Dr Andrew Kao from the University of Greenwich to predict whether micro-crystals would form, and what shape they would have.
The model predicted that helical ‘screw-like’ crystals would form under the influence of strong magnetic stirring, and the high-speed X-ray confirmed that this occurred.
Although these elegant crystals are just micro-meters wide – which are ten times smaller than a human hair – they have implications for industrial-scale processes.
“These microscopic crystals ultimately determine the physical properties of the alloy. To be able to adjust their shape, structure and direction of growth will enable us to perfect processes for both manufacturing and recycling of metals and alloys.”
Cai has already invented a technique to improve aluminium recycling by removing iron. Iron is a detrimental element that can make aluminium brittle and limit its use in premium applications such as aircraft.
Each year, millions of tonnes of aluminium are produced for transportation, packaging, construction, and electrical appliances and household items.
Recycling aluminium uses 10% of the energy, and releases just 5% of the carbon dioxide compared with primary aluminium production.
Aluminium can be recycled forever: It can be melted down and reformed without losing any quality, and the process can be repeated over and over again.
Existing methods for removing iron during recycling are either expensive or inefficient, but Cai’s simple, inexpensive technique uses magnets and a temperature gradient to remove iron contamination.
The invention has been patented by University of Birmingham Enterprise and supported by the Midlands Innovation Commercialisation of Research Accelerator, which awarded Cia a grant to build a large-scale prototype.
Edited by: Zandile Mavuso
Creamer Media Senior Deputy Editor: Features
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