Digital Fabrication for Circular Timber Construction: A Case Study
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Author / Producer
Date
2024-08
Publication Type
Journal Article
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yes
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Abstract
The European timber industry has successfully implemented the cascading utilization of wood for several decades, downcycling material resources at the end of each product cycle by turning them into new industrial commodities through additional manufacturing procedures. In its current implementation, this approach is effective in keeping wooden materials in circulation. However, a significant amount of material still reaches the end-of-life stage through incineration prematurely, constituting a considerable waste of valuable resources. Therefore, we propose repurposing low-quality, low-engineered waste wood for architectural applications to avoid unnecessary downcycling processes. Specifically, we suggest a digital design and fabrication method to build tectonic structures using repurposed timber offcuts. As a case study, we present a pavilion structure built at a 1:1 scale, demonstrating the potential of digital technologies for circular timber construction. Based on this case study, we discuss how digital fabrication and material grading can foster a transition towards a circular built environment.
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published
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Book title
Journal / series
Volume
1 (2)
Pages / Article No.
1 - 18
Publisher
DSRPT UG
Event
Edition / version
Methods
Software
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Date collected
Date created
Subject
circular economy; circular construction; cascading utilization; waste wood; repurposing; upcycling; timber manufacturing; strength testing; digital fabrication; computational design
Organisational unit
09724 - Langenberg, Silke / Langenberg, Silke