A study of digital and physical workflows used for the creation of fabric-formed ice shells with bending active frames

Q1 Arts and Humanities

International Journal of Space Structures Pub Date : 2020-12-21 DOI:10.1177/0956059920981861

Lancelot Coar, Jason Hare, Lars De Laet, Y. Cha, Gahyun Suh, Jesssica Piper, Violet Jiang

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引用次数: 2

Abstract

Cold climate regions with sustained temperatures between −10°C and −20°C offer a unique opportunity to produce temporary rigid ice spatial structures. An advantage offered by creating these unusual structures includes their ability to test the structural performance of spatial shells made from this and other analogous liquid-to-solid materials (e.g. concrete, GFRC, fiberglass, etc.) at a building scale. Additionally, because of the minimal cost of the material and temporary life of these structures, they offer a unique opportunity to explore and improve the design and construction methods used to erect shell structures in an efficient and low impact way. This paper focuses on the creation of fabric-formed ice shells utilizing bending active frames as a form-finding system. In particular, the paper will analyze the design process workflows used in three case studies of building-scale ice shell projects created by the authors and highlight the tools and methodologies developed to address the particular goals of each project. Responding to the lessons learned from these projects, a final project describing current research will be presented. In this work there is an effort to synthesize the lessons from the three previous projects and produce a congruent, iterative, and effective design and construction workflow to produce fabric-formed ice shells using bending active gridshells. An emphasis in this study focuses on the informational and methodological transfer between digital and physical tools and how these unique tools and capacities can create a synergistic design and construction language that leverages the limitations of one with the strengths of the other.

查看原文本刊更多论文

用于创建具有弯曲主动框架的织物冰壳的数字和物理工作流程的研究

持续温度在- 10°C至- 20°C之间的寒冷气候地区提供了产生临时刚性冰空间结构的独特机会。创造这些不寻常的结构所提供的一个优势是，它们能够在建筑尺度上测试由这种材料和其他类似的液-固材料(例如混凝土、GFRC、玻璃纤维等)制成的空间壳的结构性能。此外，由于这些结构的材料成本和临时寿命最低，它们为探索和改进设计和施工方法提供了独特的机会，这些方法用于以高效和低影响的方式建立壳结构。本文着重于利用弯曲主动框架作为寻形系统来创建织物形成的冰壳。特别地，本文将分析作者创建的建筑规模冰壳项目的三个案例研究中使用的设计过程工作流程，并强调为解决每个项目的特定目标而开发的工具和方法。根据从这些项目中学到的经验教训，将提交一份描述当前研究的期末项目。在这项工作中，我们努力综合前三个项目的经验教训，并产生一个一致的、迭代的、有效的设计和施工工作流程，以使用弯曲的主动网格壳来生产织物形成的冰壳。本研究的重点是数字和物理工具之间的信息和方法转移，以及这些独特的工具和能力如何创造一种协同设计和构建语言，利用其中一种工具的局限性和另一种工具的优势。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Space Structures Arts and Humanities-Conservation

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： The aim of the journal is to provide an international forum for the interchange of information on all aspects of analysis, design and construction of space structures. The scope of the journal encompasses structures such as single-, double- and multi-layer grids, barrel vaults, domes, towers, folded plates, radar dishes, tensegrity structures, stressed skin assemblies, foldable structures, pneumatic systems and cable arrangements. No limitation on the type of material is imposed and the scope includes structures constructed in steel, aluminium, timber, concrete, plastics, paperboard and fabric.