UNLOG: A Deployable, Lightweight, and Bending-Active Timber Construction Method

IF 0.5 0 ARCHITECTURE Technology Architecture and Design Pub Date : 2023-01-02 DOI:10.1080/24751448.2023.2176146
Leslie Lok, S. Živković, Lawson Spencer
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Abstract

UNLOG is a lightweight and easily deployable timber framing method that utilizes robotic kerfing techniques to transform emerald ash borer (EAB)-infested timbers into materially efficient leaf-spring components. We developed this bending-active structural system through geometric studies and physical prototypes. They contribute to ongoing research in robotic fabrication with natural log geometries, bending-active structural systems, deployable structures, minimum-waste fabrication, material circularity, and Mixed Reality (MR) applications for component assembly. Using only six logs, threaded rods, and custom recycled HPDE washers, the resulting pavilion demonstrates the feasibility of the UNLOG method to construct leaf-spring components through MR instruction and robotic kerfing techniques with EAB-infested ash wood.
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UNLOG:一种可展开的、轻量级的、可弯曲的木材构造方法
UNLOG是一种轻量级且易于部署的木材框架方法,它利用机器人切割技术将绿宝石灰蛀虫(EAB)感染的木材转化为材料高效的叶弹簧组件。我们通过几何研究和物理原型开发了这个弯曲主动结构系统。他们为机器人制造的自然对数几何、弯曲主动结构系统、可展开结构、最小浪费制造、材料循环以及组件装配的混合现实(MR)应用等方面的持续研究做出了贡献。仅使用六根原木、螺纹杆和定制的可回收HPDE垫圈,最终的展馆展示了UNLOG方法通过MR指令和eab感染的白蜡木的机器人切孔技术构建叶弹簧组件的可行性。
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来源期刊
Technology Architecture and Design
Technology Architecture and Design Arts and Humanities-Visual Arts and Performing Arts
CiteScore
1.30
自引率
0.00%
发文量
18
期刊最新文献
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