People have been recycling aluminium for nearly 100 years and an incredible 75 per cent of the metal ever made is still in use today.
Since recycled aluminium has exactly the same properties as new – but takes just five per cent of the energy to produce – aluminium commands a high value on the secondary, or scrap, market and this drives collection for further recycling.
Aluminium can be reprocessed and reformed endlessly, and the metal loses none of its quality during the recycling process.
„We can purchase your scrap for the best market price or reprocess it into ingots. You can simply decide which option is more convenient for you.„
The metal can be reused in the production of a multitude of different products, ranging from cars to window frames, and from aeroplanes to foil trays. This endless reuse cycle is also known as ‘closed loop’ recycling.
From old to new
The secondary production process begins with extracting used aluminum from waste streams and getting it ready for recycling. Because of the energy savings benefits it provides, aluminum scrap is a most valuable commodity. Scrap segregated by chemical composition, or alloy, maintains the highest value while scrap containing a mix of alloys and other materials has the lowest. New technologies, such as Laser Induce Breakdown Spectroscopy and Color Sorting, can separate aluminum and remove contaminants to improve the quality and value of the scrap. This fine-tuned recycling process allows aluminum to be recycled over and over again in a true closed loop process.
Into the furnace
Once the scrap is collected and sorted, it is placed into a melting furnace and turned into molten aluminum at temperatures ranging from 1300 to 1400 degrees Fahrenheit. This molten aluminum may be kept in its liquid state or cast into large slabs called ingots or billets. In some cases, alloying elements are added to the liquid aluminum in order to produce the desired metal for a specific product type. Aluminum ingots may be rolled back into a sheet product (like can or auto body sheet) while billets can be extruded into a shaped product, such as window frames or an Apple computer case.
Additional metals and compounds are often added during the secondary production process to achieve the right alloy “recipe” for the finished product. High performing products such as building materials or automotive parts can be recycled from other high quality aluminum products, such as aircraft components. And since aluminum never loses its performance or strength during the recycling process, the same piece of aluminum can enter the secondary production process time and time again, multiplying the cost savings and environmental benefits.