TY - JOUR
T1 - 平面から曲面へ展開可能な測地線グリッドを用いたレシプロカルフレームのモデル化
AU - Kitajima, Chisaki
AU - Suehiro, Kaoru
N1 - Publisher Copyright:
© 2023 Architectural Institute of Japan. All rights reserved.
PY - 2023/10
Y1 - 2023/10
N2 - Reciprocal frames enable to assemble the large span with short and small components supported mutually. However, the design and construction of three-dimensional structure tend to be more complex. In this article, we show a method to design deployable reciprocal frames from flat to curved surface by applying a method to create the elastic geodesic grid. To measure the reproducibility of the shape, we compare laser 3D scan models with real models. In addition, the models are simulated the behaviors by numerical analyses. Lastly, we reveal the challenges of designing by constructing a full-scale temporary structure using this method.
AB - Reciprocal frames enable to assemble the large span with short and small components supported mutually. However, the design and construction of three-dimensional structure tend to be more complex. In this article, we show a method to design deployable reciprocal frames from flat to curved surface by applying a method to create the elastic geodesic grid. To measure the reproducibility of the shape, we compare laser 3D scan models with real models. In addition, the models are simulated the behaviors by numerical analyses. Lastly, we reveal the challenges of designing by constructing a full-scale temporary structure using this method.
KW - Active bending
KW - Computational design
KW - Deployable structure
KW - Reciprocal frame
KW - Workability
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U2 - 10.3130/aijt.29.1653
DO - 10.3130/aijt.29.1653
M3 - 学術誌
AN - SCOPUS:85177731494
SN - 1341-9463
VL - 29
SP - 1653
EP - 1658
JO - AIJ Journal of Technology and Design
JF - AIJ Journal of Technology and Design
IS - 73
ER -