在编织结构上喷涂粘土制备轻质陶瓷

IF 1.6 0 ARCHITECTURE

International Journal of Architectural Computing Pub Date : 2022-10-18 DOI:10.1177/14780771221135026

Lukas Gosch, Julian Jauk, H. Vašatko, E. Šamec, Matteo Raffaelli, S. Rutzinger, M. Stavrić

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引用次数: 1

摘要

本研究旨在开发一种由螺纹增强材料和粘土基质组成的新型复合材料，并开发一种将这种材料成型为中空空间结构的方法。建筑行业中的陶瓷元件目前是通过挤压、压制和铸造方法制造的。将粘土喷涂到预定义的编织网上的方法增加了数字制造的轻质陶瓷元件的可用性，同时消除了对脚手架的需求。在这种方法中，使用工业六轴机械臂将多层流体粘土块喷射到张紧的网格上。这允许材料的精确应用，并导致材料厚度的变化。由于吸收压缩力的粘土和吸收拉伸力的螺纹的互补性，可以形成轻质结构。这项研究包括用粘土混合物、几种线类型、编织方法和喷涂技术进行实验，以及制作一个1:1的轻质模块作为建筑原型。

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Fabricating lightweight ceramics by spraying clay on knitted structures

This research was carried out to develop a novel composite material consisting of a thread reinforcement and a clay matrix, as well as to develop a method of shaping this material into hollow spatial structures. Ceramic elements in the building industry are currently created by applying extruding, pressing and casting methods. The approach of spraying clay onto predefined knitted meshes increases the usability of digitally fabricated lightweight ceramic elements, while eliminating the need for scaffolding. In this approach, multiple layers of a fluid clay mass are sprayed onto the tensioned mesh using an industrial, six-axis robotic arm. This allows the precise application of the material and results in varying material thicknesses. Due to the complementary qualities of clay which absorbs compressive forces and threads which absorb tensile forces, lightweight structures can be created. The research involved experimenting with clay mixtures, several thread types, knitting methods and spraying techniques, as well as fabricating a 1:1 lightweight module as an architectural prototype.

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来源期刊

International Journal of Architectural Computing ARCHITECTURE-

CiteScore

3.20

自引率

17.60%

发文量