The northwest edge of Allschwil, Switzerland, directly adjacent to the border with France, is a global hub for innovative companies in the fields of pharmaceuticals, medicine, and research. The SIP Main Campus project is being developed in this area within the BaseLink site, joining the existing Tech and Life Science Cluster; it is adjacent to sports facilities, a recreational area, and a residential neighborhood. The structural concept reduces interior divisions and vertical supports as much as possible, allowing for a large variety of uses; this flexibility, combined with the durability of building materials, extends the potential life span of the building. Start-ups, scale-ups, and established companies from the biotech and healthcare sectors are addressed as potential users, as are programs that contribute to a better work-life balance and the overall revitalization of the area – for example, the Swiss International School will open a primary school, which will help minimize the need for additional commuting for families.
Based on the concept of a ‘courtyard house’, the SIP Main Campus offers approx. 50,000 m2 of usable floor area for 2500-3000 employees and thus is the largest building on the site. The landscaped courtyard is accessible through a pair of two-story passages that cut through the block at street level. It is one of a sequence of green spaces running from west to east through the entire BaseLink site, contributing to a good microclimate and allowing connections from one property to the next. The shaded central recreation area – as large as a football field – is designed with a combination of trees and deep-bed planting, leaving the visual axis at eye level free for easy orientation; climbing plants extend the landscape vertically to the pillars of the building itself. The groundscape consists of largely unsealed gravel surfaces and seepage pits in reference to the original riverbed landscape of the area. From the inner courtyard, the building is accessed via four generously designed spiral staircases in the corners, allowing for up to eight different main users per floor.
The facade is defined by a deep, gridlike structure of in situ concrete, which absorbs vertical loads and serves as bracing for wind and potential earthquakes. These inner and outer rings of the structure allow for a reduction of size and number of structural elements inside the building, which in turn offers the greatest possible typological and scale flexibility for users. The loggias of the inner fa?ades allow for a variety of opportunities for exchange, lingering, and encounter. They further provide protection from the sun, along with awnings, as well as access to the building and serve as fire escapes. At the same time, these outdoor spaces allow passive cooling through the shading of the facades, which is supplemented by energy-efficient heating and cooling ceiling panels as needed. The entire BaseLink site is served by geothermal energy.
The vertical elements of this grid are at a slight incline. This slight deviation lends weight to the horizontals and integrates the dimensions of the building to a human scale. Businesses and restaurants occupy the ground floor, together with a large auditorium with seating space for up to 300 people. Also available for external events, the auditorium is another program element that connects the building to the community. The floor plan, loadbearing grid, and room height of all five floors can accommodate laboratories or office spaces.
The four open staircases connecting the surrounding balconies of the inner courtyard are focal points throughout the building and aid in orientation; together with the auditorium, they form areas of exchange and communication. Basel-based artist Renée Levi has developed an artistic concept for these spaces. An interlaced grid of fluid lines of white plaster gives a specific character to each of the four corner stairs; the large gestures of the lines both accompany and anticipate the movement of collaborators between the floors. A custom-made wool tapestry, Nina, 19 x 7.5 meters, is installed on the wall of the auditorium; complementing the monochrome simplicity of the artworks in the stairs, it integrates their expressive lines with a vibrant, colorful pattern.
项目信息
建筑师:Herzog & de Meuron
地点:瑞士
面积:40000 m2
年份:2023
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混凝土结构
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混凝土试件强度能否作为界定混凝土质量责任的依据?引 言 预拌混凝土的出厂是半成品,后续经过运输、施工方的浇筑、养护,才能完成混凝土结构的施工。众所周知,混凝土出厂后,它有一个较长时间的凝结、硬化过程,其中的凝结也就是混凝土由流动性变成无流动性的过程,分为初凝和终凝,终凝就是完全失去流动性,混凝土才开始产生强度;硬化,就是混凝土终凝后的延续,水化在继续进行,强度也逐渐加大,直至达到设计强度,那就彻底硬化了。由于预拌混凝土具有质量动态变化及长期性、后滞性的特点,必然导致影响混凝土质量的因素是多方面的,可以说供方和施工方都存在影响质量的因素,硬化后混凝土若出现质量问题,责任的界定就需要多方面的了解和调查,需要双方证据、依据来支撑。本文仅谈质量问题中的强度问题,就能否用混凝土试件强度作为界定混凝土质量责任的依据,谈一下个人看法。
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只看楼主 我来说两句学习了
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外立面由一个深网格状的现浇混凝土结构界定,该结构可吸收垂直荷载,并作为风力和潜在地震的支撑。这些内外环形结构可以减少建筑内部结构元素的尺寸和数量,从而为用户提供最大可能的类型和规模灵活性。
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