簡易檢索 / 詳目顯示
| 研究生: |
吳冠毅 Wu, Kuan-I |
|---|---|
| 論文名稱: |
基於懸鏈結構的編織構築研究 A Study on Modeling by Stiffening of Weaving Catenary Structure |
| 指導教授: |
劉舜仁
Liou, Shuenn-Ren 杜怡萱 Tu, Yi-Hsuan |
| 共同指導教授: |
徐衛國
Xu, Wei-guo |
| 學位類別: |
碩士 Master |
| 系所名稱: |
規劃與設計學院 - 建築學系 Department of Architecture |
| 論文出版年: | 2019 |
| 畢業學年度: | 107 |
| 語文別: | 中文 |
| 論文頁數: | 110 |
| 中文關鍵詞: | 編織建築 、懸鏈結構 、非線性建築 、循環材料 |
| 外文關鍵詞: | weaving architecture, catenary method, nonlinear architecture, sustainable materials |
| 相關次數: | 點閱:196 下載:21 |
| 分享至: |
| 查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
建築的起源和織造紡織品的創造同時發生。第一個避難所是通過編織一些植物纖維構建的,它是最早的垂直隔間表面。如今,編織技術的當代建築設計並不是一個創新設計議題,但當代編織建築案例多是以編織的型態表像上來呈現,對於是否運用編織工藝定義的建築已經模糊。本研究的方式是將編織過程與現今三維成型結構系統相結合,利用現有的空間結構技術,懸鏈結構,創造新的編織空間原型。設計上採用循環材料和可持續發展的結構實驗趨勢。依靠數字建模製造技術,嘗試開發可以實現的新結構系統。
新型編織懸鏈結構是意圖挑戰空間的邊界和材料,使其與未來的環境與人類的行為互動。通過研究材料硬化的轉變,從柔軟到堅硬。選擇了日常生活上常見的天然有機物,米,澱粉類的特性具強大的黏著力和可塑性。最重要的是能夠環保和循環再生。
The origin of the architecture and the creation of weaving textiles occurred at the same time. The first shelter was constructed by weaving some plant fibers, and it is the earliest vertical compartment surface. Nowadays, contemporary architectural design by using weaving techniques is not an innovative concept, but the contemporary weaving architecture cases are mostly presented in the pattern of weaving, and the architecture cases with weaving characteristic process are not clearly defined.
The purpose of this study is to combine the weaving process and the three-dimensional forming structure, to create a new weaving space prototyping by an existing space-structural technology, named as “the catenary system and the grid-shell system”. The design was adopted with contemporary architecture materials pursued by the trend to be experimental and sustainable. Depends on digital fabrication technology and circular economy concept, this study tried to develop a new structure prototype that can be implemented.
[1] 江彤、李國強.〈可延展預應力網殼結構的發展、應用及展望〉[J]. 建築鋼結構進展.2013(03)
[2] 李清朋.《逆吊實驗法的數值模擬及應用》[D]. 哈爾濱工業建築學院.2013
[3] 徐衛國.〈非線性體—表現複雜性〉[J]. 世界建築.2006(12)
[4] 徐衛國.《參數化非線性建築設計》[M]. 清華大學出版社. 2016
[5] 黃育征.〈迴圈經濟〉[J]. 台北. 天下雜誌. 2017(621)
[6] 曾文山.《空間編織》[D]. 成功大學碩士論文. 台南. 2005
[7] 榮挺鈞.《織理性建築 多層次空間結合架構之研究》[D]. 淡江大學碩士論文. 台北. 2010
[8] 劉舜仁(主編).《迴圈經濟架構下的建築設計》[J]. 臺灣建築學會會刊. 2018(91)
[9] 藤井大地、菊池升.〈均質化法によるシェル構造の形狀とトポロジーの同時最適化〉[J]. 日本建築學會大會學術講演梗概, B-1,pp.383-384,1999
[10] Badaw, M.S., Development of the Weaving Machine and 3D Woven Spacer Fabric Structures for Lightweight Composites Materials[M]. Vdm Verlag Dr.myller Aktiengesellschaft & Co, 2007.
[11] Bilisik, K., Karaduman, N.S. & Bilisik, N.E., “3D Fabrics for Technical Textile Applications”[R/OL], Non-woven Fabrics by Han-Yong Jeon, DOI:10.5772 / 61224, 2016, https://www.intechopen.com/books/non-woven-fabrics/3d-fabrics-for-technical-textile-applications
[12] Goodfellow, P., Avian Architecture: How Birds Design, Engineer, and Build[M], Journal of Field Ornithology, 2012.
[13] Li, X., Wu, Y. & Cao, Z., Computational Morphogenesis Method for Freeform Structures Generated by Translating B-Spline Curves[M], Advanced Science Letter, 2011.
[14] Motro, R., An Anthology of Structural Morphology[M], World Scientifc, 2008
[15] Muslimin, R., Learning from Weaving for Digital Fabrication in Architecture [M], Leonardo, 2010.
[16] Mungan, I. & Abel J.F., Fifty Years of Progress for Shell and Spatial Structures[M], Multi Science Publishing Co Ltd, 2009
校內:立即公開校外:立即公開