Description

This research investigates the integration of free-form glue-laminated timber into contemporary architectural design and fabrication. Advancements in material sciences, digital design tools, and fabrication techniques have added an unprecedented amount of complexity to the design and production of buildings. This novel condition necessitates alternate ways of conceptualizing and managing the design-production process and has made obvious the need for integration across disciplines, specializations, and scales. This also presents an opportunity to re-examine a complex material such as timber in a new light.

The project proposes that, through several distinct forms of feedback, new material and design practices emerge that take advantage of the material complexity of timber. New morphologies are made possible by the integration of digital sensing and scanning into existing industrial timber processes, and the breadth and scope of design possibilities are expanded by the development of material- and fabrication-aware design modelling tools. These result in new methodologies which challenge existing ways of designing and fabricating timber buildings.

Close collaboration with the industrial partners has resulted in experiments which test this proposal. A series of motion capture and 3d scanning experiments resulted in a laser scanner prototype which was integrated into an active timber production through hardware and software interfaces at Blumer Lehmann AG. Several design projects were used as case studies to explore new ways of simulating and designing with free-form timber in early-stage architectural design phases at White Arkitekter.

Layman's description

The project shows how the use of new digital tools such as 3d scanning, simulation, and computational modelling can challenge existing design-to-fabrication workflows and lead to interesting new types of timber structures.

As an abundant and sustainable building material, timber has a new and very active role in today's built environment. By taking advantage of the huge technological shift we are seeing all around us today and harnessing some of the material properties and behaviours of timber that make it unique, we can arrive at new ways of designing and producing timber buildings that are more optimized, materially intelligent, and environmentally responsible.
Short titleIntegrated material practice
StatusFinished
Effective start/end date01/01/201601/01/2019