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Octahedron-based spatial bar structures - the form of large areas covers

The large areas covers may be designed as the spatial dome constructions where the basis of their shaping are regular polyhedra. The paper presents eight new designed spatial bar structures as geodetic domes with a span of 50 m. The basis of their shaping is the regular octahedron. This polyhedron h...

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Main Author:	Pilarska, Dominika
Format:	Conference Proceeding
Language:	English
Subjects:	Differential geometry Geodesic domes Polyhedra Triangles
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cited_by	cdi_FETCH-LOGICAL-c397t-8741627b1ca2f6ac19cb0f6d7989579e389591425efcc5efb4189eb805694d23
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description	The large areas covers may be designed as the spatial dome constructions where the basis of their shaping are regular polyhedra. The paper presents eight new designed spatial bar structures as geodetic domes with a span of 50 m. The basis of their shaping is the regular octahedron. This polyhedron has not been recognized in detail as the basis for geodesic domes designing. Using second method of the division of the initial equilateral triangle proposed by professor Fuliński, bar domes generated from 2904-hedron, 3456-hedron, 4056-hedron, 4704-hedron, 5400-hedron, 6144-hedron, 6936-hedron and 7776-hedron were obtained. The designed eight bar structures were subjected to thorough geometric and static analysis showing the behaviour of the geodesic bar domes generated according to the presented in the paper method of the division of original face of regular octahedron. Own formulas were developed to determine the number of nodes and bars. The designed eight bar systems in the form of geodesic domes, which the basis of shaping is regular octahedron can be used as the covers of large areas without the necessity of the internal supports usage.
doi_str_mv	10.1051/matecconf/201817403007
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subjects	Differential geometry Geodesic domes Polyhedra Triangles
title	Octahedron-based spatial bar structures - the form of large areas covers
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