Examining the versatility of timber veneer for architectural applications: A specifier's guide to modern sustainable veneers
There is a concern that timber will become a dwindling resource if it is not protected and managed responsibly. As the most efficient use of timber, veneering presents a compelling and versatile design solution that combines the benefits of solid wood—strength, durability and aesthetics—with low raw material consumption.
Timber is considered to be one of the most sustainable materials for both internal and external applications as it is not only renewable, but it also acts as a carbon sink. Making optimum use of this precious natural resource is the responsibility of all design and construction professionals. As the most efficient use of timber, veneering presents a compelling and versatile design solution that combines the benefits of solid wood—strength, durability and aesthetics—with low raw material consumption.
Green by Design: Understanding the Sustainability & Design Versatility of Timber Veneer presents the case for veneer as one of the most adaptable timber products on the market. We discuss how timber veneer is made, including different design options, cutting methods and matching techniques. We then discuss what exactly makes veneer more sustainable than most building materials, including solid wood. Finally, we look at the versatility of timber veneer for decorative and structural applications, particularly when you can match different substrates to the desired end use.
Big River Group manufactures a range of panel and construction products including timber and steel formwork products, timber flooring, plywood and decorative panel products, as well as distributing a broad range of other building products from well-known local and international suppliers, focusing primarily on commercial and residential, non‐residential and infrastructure construction.
Download this whitepaper to learn about the sustainability benefits of timber veneer and its versatility in a wide range of architectural applications.