后张陶瓷结构:设计、分析和原型制作

Martin Bechthold, Zach Seibold, Saurabh Mhatre
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引用次数: 0

摘要

本研究报告了脆性陶瓷挤压件后张紧的数值和实验方法。它提出了一种新的施工方法,包括新的接缝类型,并通过两个展馆规模的原型证明了陶瓷作为弯曲活动环境中的主要结构材料的可行性。研究分三个不同阶段进行。首先,通过实验确定了相关材料的性能——抗压强度、弯曲强度、模量。接下来,对几个后张梁原型进行了测试,以检查后张钢和陶瓷之间的相互作用,了解破坏模式,并细化施工细节。最后,根据这些发现设计了两个后张拉原型,即空腹拱门和海帕塔。每个原型的设计过程都涉及一个新颖的数字工作流,该工作流利用多个参数模型来生成和分析全局设计几何图形,链接到结构分析软件,根据可用的库存尺寸将表格离散化为组件,适应装配公差,并生成组件切割列表。原型的表现正如预测的那样,表明后张拉可以成功地控制陶瓷挤压制品中的弯曲应力,并为该材料引入了全新的应用。
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Post-tensioned ceramic structures: design, analysis and prototyping

This research reports on numerical and experimental methods for the use of post-tensioning with brittle ceramic extrusions. It proposes a novel construction approach, including new joint typologies, and demonstrates the viability of ceramic as a primary structural material in a bending-active context through two pavilion-scale prototypes. The research proceeded in three distinct phases. First, relevant material properties —compressive strength, bending strength, modulus—were determined experimentally. Next, several post-tensioned beam prototypes were tested to examine the interaction between post-tensioning steel and ceramic, understand failure modes, and refine construction details. Finally, two post-tensioned prototypes were designed based on these findings, the Vierendeel Arch and the Hypar Tower. The design process for each prototype involved a novel digital workflow that utilized multiple parametric models to generate and analyze global design geometry, link to structural analysis software, discretize the forms into components based on available stock sizes, accommodate for assembly tolerances, and generate component cut lists. The prototypes behaved as predicted, demonstrating that post-tensioning can successfully control bending stresses in ceramic extrusions, and introducing entirely new applications for the material.

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