Building Academy Making-of

building practice

Building Academy Making-of

01
PROJEKT DATEN

location: 5020 Salzburg, Moosstrasse 197
construction: 2010 – 2012
client: chamber of commerce Salzburg
user: Building Academy Salzburg
useable floor area: 2200m2
architect: Martin Oberascher,
project team: Alexander Matl, Jeanine Wörndl, Nadine Rössler, Giuseppe Molteni

consultants:
structural engineering: Brandstätter ZT GmbH
HVAC: TB Stampfer GmbH
ELO: TB Instaplan Bauphysik: Quiring Consultants
surveyor: DI Linsinger ZT GmbH Ausführende

contractors:
shell construction: Alpine Bau GmbH
steel construction: Oberhofer Stahlbau
concrete reinforcement: Himmelreicher Baustahl GmbH
mold construction: Pagitsch GesmbH
precast concrete elements: Rieder GmbH
glass-fassade: Brandauer GmbH
dry construction: Baurent BauGmbH& Co.KG
HVAC: Schwaiger GmbH
ELO: Sänze GmbH

02
Projektbeschreibung

MOA’s design creates a new foyer and entrance topography to the Building Academy, and transforms an existing assembly hall into a cultural venue. After the conversion, the foyer will serve multiple purposes – as a lobby for the academy and as a public space for various cultural events in the adjacent halls, such as presentations, movie screenings, concerts or rehearsals.

The new roof structure creates a consistent and smooth transition between the exterior and the interior of the building. It connects the different functional areas in one fluid space and creates an open and evocative atmosphere. Structural performance, lighting and functional zoning, as well as the creation of an intuitively understandable guidance system correlate in one continuous structure. The widening of the roof geometry from a framed into a freely spreading geometry can be read as a contingent affiliation of the existing spatial characteristics. The three-dimensional pattern was generated by a simulation of fluids based on particle flows. Liquids have three essential parameters: viscosity, density and surface tension. The interactions between these three physical properties have been tested on the computer in a series of variations to generate a pattern with a big amount of holes and a high level of coherence. Realizing this complex structure in exposed concrete posed major challenges in the area of formwork construction, which was tested and optimized in 1:1 mock ups. The finely triangulated surface of the concrete structure allows a subtle play of light and shadow and was achieved by testing different milling techniques. The advanced geometry of the roof and its innovative construction process reflect the competencies and teaching focus of the Building Academy in the field of concrete application.

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