Interscalable material microstructure organization in performance-based computational design

IF 3.1 1区 艺术学 0 ARCHITECTURE Frontiers of Architectural Research Pub Date : 2024-06-21 DOI:10.1016/j.foar.2024.05.003
Sevil Yazici
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Abstract

Various parameters can be integrated in material-based computational design in architecture. Materials are the main driver of these processes and evaluated with the constraints related to the form, performance, and fabrication techniques. However, current methodologies mostly involve investigating already existing materials. Studies on computational material design, in which new materials are developed by designing their microstructures in response to the performative issues, are generally undertaken at the material scale, and not adopted to the architectural design process yet. To resolve this issue, the methodology titled Interscalable Material Microstructure Organization in Performance-based Computational Design (I2MO_PCD) is developed and presented in three stages, including (1) identification of different types of material microstructures, (2) computational material design, and (3) prototyping. Data-based material modelling and visualization, and algorithmic modelling techniques are utilized, followed by various performance simulations as a part of an iterative process. New microstructure organizations are designed computationally, organized under three main groups as linear-curvilinear, crystal and metaball-voronoi. The outcomes of different performance analyses, including structure, radiation, direct sun hours, acoustics and thermal bridge were compared. Thus, the role of geometrical organization of microstructures, scales and material types in different performance computations were identified, by designing and fabricating synthetic materials.
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基于性能的计算设计中的可扩展材料微结构组织
基于材料的建筑计算设计可以整合各种参数。材料是这些过程的主要驱动力,并与形式、性能和制造技术相关的限制因素一起进行评估。然而,目前的方法大多涉及对现有材料的研究。计算材料设计研究通过设计材料的微观结构来开发新材料,以应对性能问题,但这些研究通常是在材料尺度上进行的,尚未应用到建筑设计过程中。为解决这一问题,我们开发了名为 "基于性能的计算设计中的可扩展材料微结构组织(I2MO_PCD)"的方法,并分三个阶段进行介绍,包括(1)识别不同类型的材料微结构;(2)计算材料设计;(3)原型设计。作为迭代过程的一部分,利用基于数据的材料建模和可视化以及算法建模技术,随后进行各种性能模拟。新的微结构组织是通过计算设计出来的,主要分为线性-曲线、晶体和代谢-伏罗诺依三大类。比较了不同性能分析的结果,包括结构、辐射、太阳直射时间、声学和热桥。因此,通过设计和制造合成材料,确定了微结构的几何组织、尺度和材料类型在不同性能计算中的作用。
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来源期刊
CiteScore
6.20
自引率
2.90%
发文量
430
审稿时长
30 weeks
期刊介绍: Frontiers of Architectural Research is an international journal that publishes original research papers, review articles, and case studies to promote rapid communication and exchange among scholars, architects, and engineers. This journal introduces and reviews significant and pioneering achievements in the field of architecture research. Subject areas include the primary branches of architecture, such as architectural design and theory, architectural science and technology, urban planning, landscaping architecture, existing building renovation, and architectural heritage conservation. The journal encourages studies based on a rigorous scientific approach and state-of-the-art technology. All published papers reflect original research works and basic theories, models, computing, and design in architecture. High-quality papers addressing the social aspects of architecture are also welcome. This journal is strictly peer-reviewed and accepts only original manuscripts submitted in English.
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