Digital Tectonic and Adjustment of Force and Form: Based on the Coordination of Structural Mechanics and Architectural Parametric Design of Hypar Shell
Abstract:The full range coordination of architectural parametric design and structural mechanics has become a frontier interdisciplinary research. In the view of structural engineering,mechanical analysis and algorithm form-finding methods are used to discuss and demonstrate the key problem of reconstruction of force and form. Taking the Hypar Shell as an example, the relationship of force flow and parameters of skin texture is set up, after the selection of variable units of skin texture based on the distribution of the 1 st and the 3 rd principle stress. Afterwards,sensible structural parameters are set and adjusted to realize a dynamic and adaptive digital tectonic and adjustment model of shell structure. As a presentation of quantitative experiment and primary exploration of technological route, empirical references and theory evidences can be provided for the exploration of structural form-finding and structural performance morphologies.
苏朝浩 林康强 冒亚龙. 力与形的数字建构与调度 ——基于海帕壳体结构力学机制与建筑参数化设计之协同[J]. 新建筑, 2016, 34(4): 100-104.
SU Chaohao LIN Kangqiang MAO Yalong. Digital Tectonic and Adjustment of Force and Form: Based on the Coordination of Structural Mechanics and Architectural Parametric Design of Hypar Shell. New Architecture, 2016, 34(4): 100-104.
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