Ball and Henkel Launch Sustainable Aluminum Aerosol Package
Ball Corporation and Henkel Beauty Care continue their aluminum aerosol lightweighting journey with the introduction of an even lighter iteration of ReAl, Ball's revolutionary technology utilizing recycled aluminum to create a metal alloy that exhibits increased strength and allows weight reduction of the container without affecting package integrity.
The original ReAl launch in 2014, which replaced the standard aluminum aerosol can, included 25 percent recycled material to yield an 11 percent lighter package. The newest iteration, which launched earlier this year, contains comparable recycled material and the package is now 15 percent lighter than the standard aluminum aerosol can. Ball is working to achieve even further lightweighting in the future.
For a 150- and 200-milliliter sized can, Henkel's Fa is now the lightest commercially available can in the market. By utilizing the lighter weight ReAl technology, Ball estimates a product carbon footprint reduction of 12 percent, which saves the equivalent greenhouse gases emitted by a vehicle driving around the earth more than a thousand times (based on estimated annual volumes supplied). Additionally, despite the increased alloy strength, Ball successfully developed a container with a deep shape to produce a can with a distinctive shelf presence.
The original ReAl launch in 2014, which replaced the standard aluminum aerosol can, included 25 percent recycled material to yield an 11 percent lighter package. The newest iteration, which launched earlier this year, contains comparable recycled material and the package is now 15 percent lighter than the standard aluminum aerosol can. Ball is working to achieve even further lightweighting in the future.
For a 150- and 200-milliliter sized can, Henkel's Fa is now the lightest commercially available can in the market. By utilizing the lighter weight ReAl technology, Ball estimates a product carbon footprint reduction of 12 percent, which saves the equivalent greenhouse gases emitted by a vehicle driving around the earth more than a thousand times (based on estimated annual volumes supplied). Additionally, despite the increased alloy strength, Ball successfully developed a container with a deep shape to produce a can with a distinctive shelf presence.