The objective of this study is to analysis the mechanical characteristics on the geometric nonlinear behavior of radial cable roof systems for long span retractable cable roof structures. The retractable roof is designed as a full control system to overcome extreme outdoor environments such as extreme hot or cold weather, strong wind or sunlight, and the cable roof greatly can reduce roof weight compared to other rigid structural system. A retractable cable roof system is a type of structures in which the part of entire roof can be opened and closed. The radial cable roof is an effective structural system for large span retractable roofs, the outer perimeter of the roof is a fixed membrane roof and the middle part is a roof that can be opened and closed. The double arrangement cables of a radial cable truss roof system with reverse curvature works more effectively as a load bearing cables, the cable system can carry vertical load in up and downward direction. In this paper, to analyze the mechanical characteristics of a radial cable roof system with central posts, the authors will investigate the tensile forces of bearing cables, stabilized cables, ring cables, and the deflection of roof according to the height of the post or hub that affects the sag ratio of cable truss. The tensile forces of the cables and the deflection of the roof are compared for the cases when the retractable roof is closed and opened.
Keywords : Radial cable roof systems, Geometric nonlinear behavior, Long span retractable cable roof structures
This paper analyses what is the concept of nature inspiration in relation to the innovative design of buildings, and the design characteristics of innovative design as well as the harmonious interactions of the past and the future in urban regeneration. This is with the aim of determining how to acquire inspirations from nature, and how to subsequently apply the visual or conceptual nature-inspired designs. Such nature-inspired designs seek to exploit the new concepts of biophilic design, such as bio-eco-friendly sustainable processes, creative designs, and systems which can be used to improve the urban environment. The goal of this research is to uncover out ways by which to apply new ideas inspired by nature for an innovative building design.
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