An Armstrong ceiling tile pioneers Cradle to Cradle® certification
Armstrong Ceilings has manufactured the first mineral ceiling tile to win Cradle to Cradle status.
A mineral fibre tile from Armstrong Ceilings has become the first in the world to be granted Cradle to Cradle® certification.
Armstrong’s Perla OP 0.95 tile, which contains 53% recycled content and is 100% recyclable, won Basic accreditation after several months of assessment. Plans are now in place to redesign the tile to achieve Silver.
The Cradle to Cradle programme has been developed to meet growing customer demand for sustainable products, with certification already becoming a requirement for building projects in America and parts of Europe.
It is designed to help specifiers and clients through the maze of environmental claims, providing a transparent mechanism to compare the sustainability performance of competitive products.
It differs from other sustainable certifications in that the process begins even before a product is manufactured. Products are developed specifically for closed loop systems in which every ingredient is not only safe but beneficial, capable of either biodegrading naturally and restoring the soil or to be fully recycled into high-quality materials for subsequent product generations, again and again.
Products are assessed on five criteria – material health, material re-utilisation, renewable energy and carbon management, water stewardship and social responsibility – and awarded one of four levels of certification, from basic through to platinum.
Armstrong has long recognised the importance of protecting the environment and using resources responsibly, developing ceiling systems that improve space illumination, reduce noise and enable the use of thermal mass for more efficient heating and cooling of the building environment.
In addition, it has also been systemically reducing its environmental footprint by careful raw material selection and reformulation, life cycle analysis, reducing pollution waste and increased use of renewable energy and rebalancing of existing supplies to lower-carbon alternatives.