EPFL's Zigzags

John Hill, Thomas Geuder
4. January 2016

PROJECT DETAILS

Project
Ecole Polytechnique Fédérale de Lausanne (EPFL)
Lausanne, Switzerland

Architect
Dominique Perrault Architecture
Paris

In collaboration with
Steiner AG
Zürich

Manufacturer
GKD – Gebr. Kufferath AG
Düren, Germany

Product
Metallgewebe Typ Escale

Client
Swiss Confederation, vertrten durch den Conseil des écoles polytechniques
Lausanne

Facade Engineer
Felix Construction
Denges, CH

Structural Engineer
Daniel Willi SA
Montreux, Switzerland

Site Area
15.500 m²

Floor Area
20.800 m²

Completion
2015

Planned Opening
May 2016

Photographs
Adagp
Dominique Perrault
GKD 

The global competition among universities has led EPFL to create a number of iconic buildings. (Rendering: Dominique Perrault Architecture)
EPFL Campus: SANAA's Rolex Learning Center (center) was the first milestone for the contemporary face of the university. (Rendering: Dominique Perrault Architecture)

Major universities are – as we often hear – in competition with each other to attract the best students and researchers from around the world. One factor in these efforts is architecture, since spectacular buildings can bring fame to a university's campus. It is no wonder then that so many universities hire well-known architects to decorate their campuses and provide buildings that are on everyone's lips. The world of architecture has talked for a good five years about the EPFL, where Japanese architects Kazuyo Sejima and Ryue Nishizawa (SANAA) contributed the Rolex Learning Center, a low, undulating building that metaphorically recalls lasagna or Swiss cheese, yet whose architecture justifiably creates very unique spaces and spatial relationships. This icon has been followed by others, including the Swiss Tech Convention Center by Richter Dahl Rocha & Associés, based in Lausanne, Japanese architect Kengo Kuma's Under One Roof project nearing competion, and French architect Dominique Perrault's conversion of the former  central library into the EPFL's main administration center.

Closed panels ensure efficient sunscreen while retaining views to the outside. (Photo: GKD)

At the same time they were working on that conversion, Perrault's firm managed to win an invited competition for another project on the university campus, one that is located immediately adjacent to the SANAA building. Again, it is a conversion: the renovation and expansion of the former Institute of Mechanical Engineering into the Center for Neuroprosthetics (CNP), which focuses on the treatment of spinal cord injuries and the restoration of motor and sensory functions after amputations, as well as the sci-fi-like control of robots by thought.

At the entrance area facing the Rolex Learning Center, the façade folds up as if it were blown by a gust of wind. (Photo: Dominique Perrault Architecture / Adagp)

Dominique Perrault's design for the CNP is a zigzag pattern that is felt both internally, in the raised walkways and stairs of the atrium, and outside, where it dominates the facade of the four-story building. The outer layer of the facade consists of 630 individual panels, each 1.10 x 3.60 m (3'6" x 11'9"), that are arranged as alternating convex and concave awnings. The mix of stationary, movable and motorized panels are made up of GKD's Escale mesh in natural anodized aluminum. The panels are attached in groups of three in a sturdy frame, where two motorized panels can slide behind the third. This offers great flexibility in terms of natural light, with each room able to open and close the mesh panels as needed.

All lateral forces are transferred through the frame, meaning the elimination of any rear anchorage of the panels. (Photo: Dominique Perrault Architecture / Adagp)

One way to understand what is going on with Perrault's facade is as a response to SANAA's organically flowing neighbor. The 7 mm (1/4") wide and 150 mm (6") long mesh weave reflects sunlight and gives the compact building a certain lightness and undulation it might not otherwise have. In addition, the 2mm (1/16") flat wire used on the ground floor offers increased protection against vandalism. Here on the ground floor, the fabric "dress" is folded elaborately above the entrance as if blown by a gust of wind. Filigree struts and supports, on which the frames are secured, bear the forces from this canopy. Due to the location in the mountains and proximity to Lake Geneva, increased wind and snow loads led to the use of a stainless steel mesh for the canopy, while aluminum covers the rest of the attention-getting facade.

View of the atrium of the CNP. (Photo: Dominique Perrault Architecture / Adagp)
The fabric reflects the sunlight with its 7mm wide and 150mm long spirals. (Image: GKD)

Published originally as "Auf Zickzack" on German-Architects.


PROJECT DETAILS

Project
Ecole Polytechnique Fédérale de Lausanne (EPFL)
Lausanne, Switzerland

Architect
Dominique Perrault Architecture
Paris

In collaboration with
Steiner AG
Zürich

Manufacturer
GKD – Gebr. Kufferath AG
Düren, Germany

Product
Metallgewebe Typ Escale

Client
Swiss Confederation, vertrten durch den Conseil des écoles polytechniques
Lausanne

Facade Engineer
Felix Construction
Denges, CH

Structural Engineer
Daniel Willi SA
Montreux, Switzerland

Site Area
15.500 m²

Floor Area
20.800 m²

Completion
2015

Planned Opening
May 2016

Photographs
Adagp
Dominique Perrault
GKD 

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