Biofibrous Potentialities: A Scalar Approach to Biogenic Futures
Abstract
Our current extractive practices with architectural materials are unsustainable and biogenic options must be explored. Much of the current discourse and use of biogenic materials in architecture operates as a one-to-one replacement for existing material typologies. However, there is an emerging interest in exploring these materials using contemporary digital fabrication tools. One biogenic material option is the by-products of flax production. The climate in Nova Scotia is suitable for sustainable growth of fibre flax, and there is a growing resurgence of this industry, and an interest in supporting it with a circular economy. The by-products currently do not have a specified use and are a prime candidate for exploration as architectural materials. Additive manufacturing, commonly referred to as 3D printing allows for customized, locally sourced, surplus-free design possibilities. Using this fabrication method this thesis uses an emergent scalar approach to explore a biogenic material future.