Timber Tectonics in the Digital Age: Multi-use Structures for Silverton

Loading...
Thumbnail Image

Date

2025

Authors

Baidoo, KB

Journal Title

Journal ISSN

Volume Title

Publisher

University of Oregon

Abstract

Exploring kit-of-parts construction, the Timber Tectonics team designed and prototyped an emergency shelter using modular stressed-skin panels, facilitating building expansion and sustainable reuse in alternative configurations. A kit-of-parts is a subset of building prefabrication in which building components are pre-engineered and prefabricated into standardized units from raw materials. The benefits of kit-of- parts construction are that it allows for rapid deployment as well as repeatable and reusable units that require little to no modification to be repurposed. To familiarize themselves with kit-of-parts theory and wood shelter construction, students first studied and modeled design precedents to establish a baseline of knowledge around wood shelters. The University of Oregon and Oregon State University combined diverse knowledge in the fields of architecture and engineering that was used to generate several creative design proposals. Working in groups, students from both universities met in person and on video calls throughout the project to draft, prototype, and model elements and ideas for the project. After a review from industry professionals, the student designs were consolidated into one. Students then regrouped to refine seven areas of the project: architectural design, stressed-skin panel design, connections, enclosure, structural analysis, construction, and project management. Student-led fabrication and assembly of the full-scale final prototype took place at Oregon State University’s Emmerson Lab, concluding with a final review. After the term, additional work was done to complete the components and disassemble them for future reuse. Lessons learned from this experience will be used to create a future of more sustainable, adaptable, expandable, and reusable buildings.

Description

210 Pages

Keywords

Citation