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迷失在几何空间/MARC FORNES,THEVERYMANY
2018-05-03
美国


感谢来自MARC FORNES / THEVERYMANY的分享

建筑完成日期:2017年 秋

建筑材料:彩绘铝

建筑规格: 22' H x 25' W x 30' D

建筑所使用零件数:582个

地址:美国  罗得岛州

参与建筑项目组织:美国罗得岛州大学,罗德岛州大学艺术委员会


Completion Date: Fall 2017

Media: Painted Aluminum

Dimensions: 22' H x 25' W x 30' D

Number of Parts: 582

Location: Providence, Rhode Island

Commissioned by: Rhode Island College and the Rhode Island State Council of the Arts through the Allocation for Art for Public Facilities Act



该建筑像是数学中的双曲线函数,位于Rhode Island大学艺术中心的入口处,其将参加该中心的开幕式。选用绿色曲线线条,人们可经由此处进入中心,来此参观的人们都会被其独特的设计所吸引,驻足观赏。


A hyperbolic surface thrusts itself into the air at the entrance to Rhode Island College Fine Arts Center, as a dramatic opening to the campus scene.In a burst of bright green curves, it enacts a threshold to creative practice and ushers studio-goers, faculty and campus visitors alike toward inspiration and action. 



独特的双曲线结构,无论从哪个角度观察都可体会,几何的独特美感。三个抛物面边缘向不同的方向倾斜,其所处的位置在人们的视线范围内,但又不会喧宾夺主,与周围的教学楼结合融洽。


multifaceted formal character draws visitors in from all angles.Its three paraboloid edges peel up towards distinct directions of approach, and its stature ensures that it is visible from the extents of the site, yet it never detracts from the building that it announces. 



此外,与周围的建筑迥然不同的设计风格,使路过此地的人们不禁停下匆忙的脚步,流连在其中。建筑在其内部选用磁力:建筑中心部较高,需要抬头仰视,慢慢得,你会发现你已经迷失在神奇的几何世界中,仿佛建筑顶部是没有尽头的,会不自觉惊叹它的高度和厚度。


Inside, it provides a whimsical and unfamiliar environment in which lingerers and passersby can lose time under dappled light. Revealed within is an oculus with a magnetic pull: a central opening in the surface projects up to a height of Your instinct is to gaze up, but inevitably you are lost in the push and pull of the form, its patterning, its improbable height and thinness. 



建筑主体选用的是铝结构,双面抛物线:三维几何建筑,双面结构,创造出图形的错觉感,打造出无限平面,线性元素打造出光滑表面。建筑规划参考了Felix Candela的薄壳混凝土几何结构,以三个平面作为支撑点。


The aluminum structure assumes the geometry of a hyperbolic paraboloid, or hypar: a three-dimensional, double-ruled surface that can be described using infinite planar, linear elements to form a smooth surface. With reference to Felix Candela experiments with the hypar geometry in thin-shell concrete, our three-legged structure relies on its double-curvature for support.



褶皱底座增加了抗侧向荷载的能力--这是所有下垂式平面结构的弱点所在。超薄铝质壳型结构,可应对气流和风力对建筑的影响。多孔性的设计进一步减轻了这种影响。


The addition of a pleated base lends additional resistance to lateral loads--an inherent weakness of the hypar flat sides.The ultra-thin aluminum shell merges skin and support to great atmospheric effect. Its lightness is further emphasized with porosity.



壳体内的切口,则是在模拟复杂表面气流和风力的变化之后而设计完成的。建筑的各个切口处为打造动态的光感创造了条件,夜晚,灯光反衬,建筑散发出奇特的光。建筑在某种程度上代表了大学的探索和发现理念。


Cuts in the shell are derived from simulated flows across the complex surfaces.These openings produce dynamic light conditions, which change the character of the space throughout the day and emit an unearthly glow at night.The College, a site of experimentation and discovery, makes an appropriate home for HYPARBOLE.



结构融合了长久的深思熟虑,多次研究成果。容纳了工作室多年来的设计经验,最终打造出连贯的建筑结构系统。遵循迭代开发和原型开发的过程,最终设计完成了整个建筑项目。建筑高22英尺,宽25英尺,深30英尺,仅用三个混凝土结构作为基础结构。


The structure is itself a product of deliberate and focused research, several years in the making, and builds on the studio efforts to unify structure, form and experience into a coherent material system.Following a process of iterative development and prototyping, HYPARBOLE in its final form stands delicately and confidently at this focal point.Measuring an imposing 22' high, 25' wide, and 30' deep, it is a force majeure touching down on only three concrete bases.




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