通过制造10 m高,自支撑GFRC双曲壳

IF 2.7 4区 工程技术 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
T. Henriksen, S. Lo, U. Knaack, P. H. Kirkegaard
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引用次数: 1

摘要

摘要制造复杂几何薄壁GFRC结构的主要瓶颈是为每个面板制作木材或数控加工模具所需的时间。复杂的几何形状由许多独特的面板形式组成,其制造的大量时间和高昂成本往往阻碍了其建筑意图的充分实现。提出了一种新的模具制造工艺,该工艺使用最先进的柔性工作台和计算机控制的致动器来创建自由成型的几何形状、快速固化、双密度的聚氨酯模具。该模具制作工艺通过使用喷涂GFRC制造9种不同的双曲型中间模具,成功地测试了10 m高GFRC自支撑薄壁双曲壳,带12 结构底部的mm厚面板。完成的结构展示了新型模具制造工艺的有效性,将生产时间从估计的100天缩短到了10天。主要成果是开发和应用了一种新的制造方法,该方法能够铸造具有良好表面质量的复杂几何形状薄壁GFRC面板,适用于更快速、更具成本效益和自动化的大规模生产。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Developing and testing a novel manufacturing method for complex geometry thin-walled GFRC panels by fabricating a 10 m high, self-supporting GFRC hyperbolic shell
ABSTRACT The main bottleneck during the manufacture of complex geometry thin-walled GFRC structures is the time taken to make the timber or CNC machined moulds for each panel. Complex geometries are comprised of many unique panel forms and the extensive time and high costs of their manufacture often prevents their architectural intent from being fully realised. A novel mould-making process is proposed that uses a state-of-the-art flexible table with computer-controlled actuators to create free-formed geometry, fast-curing, dual-density, polyurethane moulds. This mould-making process was successfully tested by using sprayed GFRC to manufacture 9 different double curved intermediate moulds for a 10 m high GFRC self-supporting, thin-walled hyperbolic shell, with 12 mm thick panels at the base of the structure. The completed structure showcased the effectiveness of the novel mould-making process by reducing the production time from an estimated 100 days to 10 days. The primary outcome was the development and application of a new manufacturing method capable of casting complex geometry thin-walled GFRC panels with good surface quality that was suited to more rapid, cost-effective and automated large-scale production.
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来源期刊
CiteScore
5.80
自引率
3.40%
发文量
30
期刊介绍: Informative and accessible, this publication analyses and discusses the integration of the main stages within the process of design and construction and multidisciplinary collaborative working between the different professionals involved. Ideal for practitioners and academics alike, Architectural Engineering and Design Management examines specific topics on architectural technology, engineering design, building performance and building design management to highlight the interfaces between them and bridge the gap between architectural abstraction and engineering practice. Coverage includes: -Integration of architectural and engineering design -Integration of building design and construction -Building design management; planning and co-ordination, information and knowledge management, vale engineering and value management -Collaborative working and collaborative visualisation in building design -Architectural technology -Sustainable architecture -Building thermal, aural, visual and structural performance -Education and architectural engineering This journal is a valuable resource for professionals and academics (teachers, researchers and students) involved in building design and construction, including the following disciplines: -Architecture -Building Engineering -Building Service Engineering -Building Physics -Design Management and Design Coordination -Facilities Management Published papers will report on both fundamental research dealing with theoretical work and applied research dealing with practical issues and industrial innovations. In this way, readers explore the interaction between technical considerations and management issues.
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