Search results
Results From The WOW.Com Content Network
There is a unique column in the Park Güell that is a hyperboloid. The famous Spanish engineer and architect Eduardo Torroja designed a thin-shell water tower in Fedala [5] and the roof of Hipódromo de la Zarzuela [6] in the form of hyperboloid of revolution. Le Corbusier and Félix Candela used hyperboloid structures . [citation needed]
Hyperboloid public art sculpture Robert R. Wilson The Tractricious sculpture in front of Fermilab 's Illinois Accelerator Research Center (IARC), Illinois , designed by Robert R. Wilson [ 1 ] [ 2 ] who derived the name Tractricious from tracktrix , a curve such that any tangent segment from the tangent point on the curve to the curve's ...
One-sheeted hyperboloids are used in construction, with the structures called hyperboloid structures. A hyperboloid is a doubly ruled surface; thus, it can be built with straight steel beams, producing a strong structure at a lower cost than other methods. Examples include cooling towers, especially of power stations, and many other structures ...
Doubly ruled surfaces are the inspiration for curved hyperboloid structures that can be built with a latticework of straight elements, namely: Hyperbolic paraboloids, such as saddle roofs. Hyperboloids of one sheet, such as cooling towers and some trash bins.
Base of 30 St Mary Axe, London, UK The world's first diagrid hyperboloid structure in Polibino, Russia MyZeil, Frankfurt, Germany CCTV Headquarters, Beijing, China. A diagrid (a portmanteau of diagonal grid) is a framework of diagonally intersecting metal, concrete, or wooden beams that is used in the construction of buildings and roofs. [1]
A saddle roof is a roof form which follows a convex curve about one axis and a concave curve about the other. The hyperbolic paraboloid form has been used for roofs at various times since it is easily constructed from straight sections of lumber, steel, or other conventional materials. [ 1 ]
The petrol station was one of a series of buildings designed by Scorer which included hyperbolic structures. These structures (sometimes known as 'hypars') were experimental structures with the intention of making them appear to hover and also in this case a show of engineering efficiency, since the concrete roof structure is only 75mm thick. [2]
Vladimir Grigoryevich Shukhov (Russian: Влади́мир Григо́рьевич Шу́хов; 28 August [O.S. 16 August] 1853 – 2 February 1939) was a Russian and Soviet engineer-polymath, scientist and architect renowned for his pioneering works on new methods of analysis for structural engineering that led to breakthroughs in industrial design of the world's first hyperboloid ...