powerful spaces - ag · pdf filepowerful spaces concrete architecture 2013 - 2015 / fs 2014....
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POWERFUL SPACESCONCRETE ARCHITECTURE 2013 - 2015 / FS 2014
Atelier giuliani.höngerLORENZO GIULIANICHRISTIAN HÖNGER
Lectures & Criticsby Structural EngineersFÜRST LAFFRANCHI
AssistentsMICHAEL MEIERRAPHAËL DUNANT
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Contents
Themes
Notes
Project
Space-utilisation schedule Site
Project perimeter
Teaching methods
Review requirements Study Excursion
Timetable
References
Bibliography Team
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Cover:S.C. Johnson & Son, Wax Building, Racine Wisconsin 1936-39Frank Lloyd Wright
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Themes
Nordic Pavilion at the Venice Biennale, Italy 1962Sverre Fehn
Concrete ArchitectureOur two-year Guest Professorship at the EPFL is integrated into the theme of Orientation: Construction et béton. Within that field, we offer the design course Théorie et critique du project MA1 in the studio, which is complemented by the exercise module by Thierry Voellinger/Véronique Amstutz Béton: Matière de construction and by the theoretical module by Roberto Gargiani Histoire du béton: fabriquer de le béton (01), as well as Antoine Picon’s Cours: de la structure à l’ornement: une histoire culturelle de la construction.The term Concrete Architecture should be grasped in more ways than one, since it explicitly also addresses the conceptual approach of the course: It seeks innovative, distinct spatial concepts in concrete, which are also feasible and realizable “in concrete” with respect to the load-bearing structure, construction and materials. At the same time, we see the design process itself as an analogy to the concrete production process: Design ideas are fed through the process of forming, casting, condensing and hardening.
The building material of concreteConcrete is a hybrid building material that has different aggregate conditions and does not have its own original expressive form since it is cast in a mold. Its constituents such as cement, water, reinforcing steel and aggregates such as gravel and sand merge together and are no longer visible after the production process. In a similar way, the distribution of forces is hardly noticeable in this hybrid, yet homogeneous material, in which statically effective and filling areas
are not revealed within the overall form. Reinforced concrete primarily gains its form through the structure and properties of the building shell which it assumes in a negative form and turns into an expression (02).
Concrete is an ancient building material. Its precursor, quick lime, was even used to build the pyramids. The Romans called concrete opus caementitum (03) and used it to build the Pantheon and aqueducts in Rome. In more recent times, John Semeaton 1755 carried out experiments with concrete on the right ratios for concrete aggregates. Joseph Monier registered the patent for reinforced concrete in 1867. Since then, reinforced concrete has experienced enormous success as a building material.
Concrete has diverse properties. It is notably robust and durable. Special treatment and processing can emulate different materials – from light textiles to heavy natural stone. By subsequently finishing the surface, it can become coarse and matt or fine and shiny, with highly contrasting effects and perceptions in daylight. Since the concrete and steel work together within the material, reinforced concrete has enormous load-bearing potential, which is combined with a wide range of undirected and three-dimensional load-bearing structures, as well as sculptural and geometric forms of expression.
With respect to production and application, one can distinguish between two basic types of concrete: In-situ cast concrete and prefabricated concrete that
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is delivered to the building site. We have studied both applications and gathered experience in our own practical work for our office. Both applications will be themes and fields of research during the susbequent semester work.
ThemesIn addition to our study of reinforced concrete, one main focus in all four semesters lies in designing powerful interior spaces and building presences that are compatible with urban locations. In-situ cast concrete is above all sensible in shaping interior spaces, while prefabricated concrete elements are especially suitable for façade design and the creation of exterior spaces.
Powerful Space“Architecture comes from The Making of a Room” (04) (Louis I. Kahn) (04) and “Our sense of space (Raumgefuhl) and spatial imagination (Raumphantasie) press toward spatial creation (Raumgestaltung); they seek their satisfaction in art. We call this art architecture; in plain words, it is the creatress of space (Raumgestalterin).“ (05) (August Schmarsow) are the two mottos of the autumn semesters. The focus lies on powerful spaces in in-situ concrete and differentiated façades with heavy prefabrication. Working together with the structural engineer, the aim is to seek congruence between space and structure.In the two autumn semesters, the projects will focus on powerful interior spaces that produce an identity, which will interest us in our own practice and during our course as sectional figures (06) and will be implemented in in-situ cast concrete.
Urban Constellation„[…] les ensembles sont plus importants que les chefs-d’oeuvre isolés“(07) (Fernand Pouillon) and „And now the
Ensemble!!!“ (08) (Miroslav Šik) are the two mottos of the spring semesters. The focus lies on differentiated facades with heavy prefabrication and powerful spaces in in-situ concrete. Working together with the construction engineer, the aim is to seek congruence between structure and expression. In the two spring semesters, we will develop designs that create good urban spatial constellations with façades in prefabricated concrete, interpreting the city with a compatible appearance, as well as being able to build it further.
ConstructionSince the oil crisis in the 1970s and the introduction of contemporary energy standards, today’s façade constructions in our latitudes have often been multilayered. Apart from a few exceptions, the structurally homogeneous wall is a thing of the past and continuous layers must be developed with a so-called layered sketch. Such multiple layering of the exterior wall gives Carl Bötticher’s theory of a “core and artistic form” (“Kern- und Kunstform”) (09) a new, unexpected contemporary relevance. In such cases, the actual load-bearing structure often forms the inwardly aligned core form, which can itself develop an artistic form that is homogeneous with the primary system.
Load-bearing Throughout architectural history, an innovative approach to gravity has been a basic precondition for important architecture. The load-bearing structure has a great design potential in developing powerful spaces. Different load-bearing systems and spans can be used to illuminate and explore the ideal relationship (10) between the load-bearing structure and the spatial span, as well as deriving their spatial effects in a very direct way. Therefore today’s
Competition for the University campus FHNW, Muttenz, 2011, 2. Price. giuliani.hönger
Top: Interior perspective of the powerful space Down: Section model
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Museum of Modern Art, Rio de Janeiro,Affonso Eduardo Reidy
standard thinking patterns of support and slab systems should be extended in favour of three-dimensional load-bearing structures that include ceilings. As a hardly questionable core form, it can however also create a space that is independent of current trends, which can sustainably maintain its effect in a robust, timeless way. The desired congruence of spatial design and load-bearing system can however only be achieved through close and early collaboration between the architect and the structural engineer (11).
TriadAs a result of our practical experience and teaching to date, we perceive spatial design, space, the load-bearing structure and the material of concrete as a symphonic unity and as a harmonic triad of space-structure-material. Daylight should also be integrated into this triad as a universal quality for spatial development. Innovative construction engineers – for this course the engineering office Furst Laffranchi - will accompany us as partners from the field of load-bearing structures. The material of concrete plays a decisive role both for spatial design and the load-bearing structure, since it can be used for floors, walls and ceilings, as well as being able to create a three-dimensional spatial development and load-bearing structure in the sense of a so-called espace texturé (12).
Teaching programme The teaching programme in autumn semester 2014 spans the themes of spatial design, developing a load-bearing structure and conscious handling of the material of concrete and its wide range of surface finishing. The term concrete architecture is ambiguous since it denotes the material of concrete, but also refers
to the concrete aspect of implementing a concept in innovative spatial design, a viable, innovative structure, a tangible materialism and ultimately adequate presentation.
At the end of the semester course the student must be able to:
_ Develop an exciting spatial sequenceThe aim is to design powerful spaces that strengthen identity and encourage communication, interaction and encounter. Vertical sections and sectional figures play a key role.
_ Recognise the potential of concrete as a building material.
Students should be able to understand and apply production conditions, manufacturing methods and surface treatments. The interaction between formwork and casting, as well as their
conditionality, should be recognised.
_ Know various load-bearing systems with varying spans and make them useful for the design.
The basic distribution of forces in load-bearing elements and the special forces involved with concrete as a tensile and compressive system should be understood, to be able to apply that to spatial design.
_ Know powerful spaces in architectural history and interpret them as references.
In that respect it is important to recognise spatial and structural potential in a way that is transhistoric and free of stylistic classification.
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Notes(01) Gargiani Roberto, Rosellini Anna, Beton Brut and Ineffable Space (1940 1965): Surface Materials and Psychophysiology of Vision (Essays in Architecture), Edition Detail 2014
(02) Deplazes, Andrea, (Ed.): Concrete. In: Constructing Architecture – A Handbook, Basel, Boston, Berlin: Birkhäuser – Publisher for Architecture, 2008, P. 57-77
(03) Kind-Barkauskas F., Kauhsen B., Polónyi S.,Brandt J.: Beton Atlas: Entwerfen mit Stahlbeton im Hochbau, Basel: Birkhäuser Verlag 2001. In particular: Entwicklung der Betontechnologie, p.9-17
(04) Kahn Louis I., Architecture Comes from the Making of a Room, Drawing for City/2 exhibition, 1971
(05) Schmarsow August, The essence of architectural creation 1893, unter: http://bibliodarq.files.wordpress.com/2012/08/schmarsow-a-the- essence-of-architectural-creation.pdf
(06) Giuliani Lorenzo and Hönger Christian: Schnittwerk, Zurich: gta Verlag, 2010, p. 14-23
(07) Pouillon Fernand, Architecte méditerranéen, Marseille 2001, S. 19
(08) Šik Miroslav, And now the Ensemble!!!, Lars Mueller Publishers GmbH Zurich 2012
(09) Bötticher Karl: Die Tektonik der Hellenen, Potsdam 1844, in: Stilhulse und Kern, Werner Oechslin (Ed.), Zurich: gta Verlag, Berlin: Ernst&Sohn Berlin, 1994, p.180-187
(10) Kind-Barkauskas F., Kauhsen B., Polónyi S.,Brandt J.: Beton Atlas: Entwerfen mit Stahlbeton im Hochbau, Basel: Birkhäuser Verlag 2001. In particular: Stahlbeton in der Architektur der Moderne, p. 18-43
(11) Furst, Armand and Laffranchi Massimo: Ways to innovative solutions, in: Dialog der Konstrukteure, Architekturforum Zurich and A. Flury (Eds.), Niggli, 2010, p. 113-118
(12) Jacques Lucan, Hypothèse pour une spatialité texturée, in: matières numéro 9 - l‘espace architectural 2008, Herausgeber: Faculté Environnement naturel, architectural et construit ENAC, Institute d’architecture et de la ville IA und Laboratoire de théorie et d’histoire LTH, p.06-17
Berkely Art museum and Pacific film Archive, Berkely California, 1970Mario Campi
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ProjectAutumn Term 2014In July 1835, the first iron steamship on the European continent, the Minerva, went into service on Lake Zurich. Several decades later, in 1890/91, the Zurichsee-Schifffahrtsgesellschaft was founded. It has been called the Zurichsee-Schifffahrtsgesellschaft, or ZSG for short since 1957. To cope with the enormous volume of passengers at the turn of the 20th century, two sister vessels, the Stadt Zurich and the Stadt Rapperswil, which were large paddle steamers, were built in 1909 and 1914 respectively. They are among the last steamboats built by the company Escher Wyss in Zurich and are considered industrial monuments today. The current fleet consists of 17 ships built between 1909 and 2007: two paddle steamers, twelve motor ships and three river boats. This term, new headquarters for the Zurich Shipping Company are to be designed including exhibition rooms. The existing facility contains the company harbour with anchoring for 17 ships, a shipyard, an office building and a catering building. On the company grounds, an interactive building is to be designed with workshops, offices and exhibition rooms to replace the old workshop building.
The company has a harbour on the left bank of Lake Zurich in Zurich-Wollishofen between Landiwiese and the Rote Fabrik. The site is easily accessible from Seestrasse and Wollishofen station. It is a relatively unattractive section of the unobstructed lakeside promenade between the “Red Factory” and “Zurihorn”
The entire site is subject to seasonal fluctuations in utilisation, being mainly used in winter. The fleet of ships are in operation on the lake during the summer months allowing the premises to be made available to interested parties. For example the shipyard is used by the “Annual Theatre Spectacle” or for other events.
The following subjects should be addressed by the building design:
_The lake promenade is to become more open and the ZSG areal closely integrated within it._The lakefront is to be integrated into or at least harmonise strongly with the new building design._ The new building should enhance the location and form a harmonious whole with the existing buildings. _ An attractive sequence of spaces is to be developed within the new building. _Consideration is to be taken of the seasonal third-party utilisation of the entire premises or certain sections thereof._ The history and specific activities of the Zürcher Schifffahrtsgesellschaft are to be presented to the public._The magic of water, the lakeside and the wide open view is to be captured atmospherically.
Chandigarh, India 1951-65Le Corbusier
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Ship elevator and hall, shipyard ZSG Wollishofen
Space-Utilisation scheduleSpace Utilisation Schedul
program sm height description/comment
ENTRANCE / ACCOMMODATION 250lobby 30 5.5foyer 120 5.5 1*shop 40 5.5facilities 60 3.5 cloakroom, restrooms, storage
EXPOSITION STEAM-/DREAMBOAT 340entrence 20 5.5documentation centre 240 5.5 1* models, planotèque, ...library 40 3.5storage 40 3.5
GASTRONOMY 300restaurant clients 120 5.5 2*, connected to terrasseservice kitchen 50 3.5pantry 24 3.5 connected to service kitchenoffice chef de cusine 10 3.5storage 2 x 12 3.5restaurant staff 40 3.5 2*pantry 20 3.5 connected to service kitchenstorage 2 x 6 3.5
WORKSHOP / OFFICE 1740 - 2240 existing buildings > replacement possiblesingle- teamoffice 3 x 16 3.5
2 x 24 3.5secretariat 24 3.5meeting room 60 3.5workshops 1500 - 2000 3.5 3* , metalworking, carpentry, electricians,
paintings, mechanics, engine cleaningfacilities 60 3.5 cloakroom, restrooms, small kitchen
GASTRONOMY SERVICE 360 - 440 existing buildings > replacement possibleproduction kitchen 500 3.5 summer activities > preproduction shipkitchenstorrage 200 3.5
SHIPYARD HALL existing buildings > to be conservedbig hall 1200 14.0 winter activities > ship (re-) construction
summer activities > events
TECHNIQUE / STORAGE 320archive 80 3.5heating, ventilation,... 200 5.5delivery 40 5.5 connected to large elevator
SURFACE UTILE 3310 - 3890 sia 416
ACCESS / CIRCULATION 993 - 1556 1*/2* 30 - 40% of the surface utile
SURFACE DE PLANCHER 4948 - 6263 sia 416
EXTERIORterrasse 120 scheme and design for exterior surfaces
maine access / drive terrasse, access, parking, sports, parking (12 -15 cares) facilities, ...
1* part of the powerful space2* could be part of the powerful space3* connected to the of powerful space
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Salondampfer Stadt ZürichPrevious page: section, plan and elevation
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SiteThe urban fabric of Zurich, especially the lake shore has been fundamentally transformed during the past 150 years. The 1830-map shows a small, urban core along the river Limmat. A major transformation was the opening of the city towards the lake around 1860. Under the administration of the engineer Burkli the lake shore became the new face and the image of the business and trading town. Until 1900, due to vast earthworks, ground was reclaimed in order to built parks, squares and promenades that
were designed from scratch. Later on, the coastline was redefined for the national exhibition ‘‘Landi 1939‘‘. After the exhibition, several parks and facilities, such as the Landiwiese or the China Garden took place on the former exhibition-site. 1985 the existing ZSG - headquarter and shipyard was modified and enlarged. Today, the Area around Rote Fabrik and the ZSG - shipyard form the endpoint of the public space along the lake, within the city of Zurich.
Aerial view of the rail station and the ZSG‘s shipyard, Wollishofen ZH.
Lakeshore concept 2004Office for Urbanisme, city of Zurich
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ZSG shipyard in Wollishofen
Lakeshore Zurich 2004Overview key projectsOffice for urbanism
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1. Ship elevator2. Shipyard hall / Event hall (to be conserved)3. Service building - roofgarden (workshop, offices, locker room) 4. Guesthouse - old headquarter (to be conserved)5. Canopy for Limmatship6. Dockside crane 125 kN7. Old rail line for charcoal8. Water‘s edge gangway9. Private shipsbuilder hall10. Oil tank11. Gastronomy service building12. Sailing clubhouse13. Storage
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Teaching MethodsThematic treatmentThe term is divided into three thematic treatment phases according to Kenneth Frampton: Topology, Typology, Tectonics. Each phase lasts 4 weeks and is mainly concluded with a “wall critique”, although inferences from previous phases are always permitted and encouraged. The first stage, topology, is developed in teams of two, while the subsequent stages are individual work. In between these phases, there are alternating weekly supervision sessions with the assistants and an interim critique by the professors and assistants. The development of the load-bearing structure will be closely supervised by qualified construction engineers with practical experience (Furst Lanffranchi). The design should show structural logic and considerable sensuous and poetic quality. Spatial and structural models are cast enabling students to experience at first hand the properties of formwork and casting.
Working with ReferencesThe cultural wealth of the history of architecture and art can be used as an inspiration and a driving force for developing one’s own thoughts. By using a limited selection of topics, treating them conceptually and applying them to one’s own project, it is possible to achieve translation and development work that is characterised by the interpreter and his understanding of the reference project.
InputsAn accompanying programme with thematic input communicates underlying insight and professional know-how on in-situ concrete and heavy prefabrication, as well as providing an overview of possible load-bearing structural concepts and their use, explaining the relationship between the load-bearing structure and space etc..
InstrumentsThe following forms of presentation have proved to be suitable for our project: _1:100/1:200 project plans, in which the spatial figure design is recognisable as a public interior space. The ground plan and cross-sections should also make load-bearing and structural elements clearly visible. Non-load-bearing and partition elements are presented as line drawings._A structural section representing the spatial concept is presented as a 1:20 layered sketch (distinguishing between load-bearing, insulating and protective functions), with an architecturally developed interior view._Models present the quality of the interior figure in the form of a spatial structure or a cast spatial figure.
Models and Sketches from Nikolai Ladovskii‘s Studio at VKhUTEMAS-VKhUTEIN (1922-1930)
Structure concept sketch from Cecil Balmondfor the Seattle Central Library, OMA
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Review Requirements
Museum of Modern Art, Rio de Janeiro 1953Affonso Eduardo Reidy
1. Review – Topology (teamwork)Mon. 29.09.14/ Tue. 30.09.14
Concept model free scale (ev. casted)Volumina model 1:200 (for integration into the area model)Drawing 1:500 (roof view integrated into the surrounding area)Drawings 1:200 (one main floor plan, one section, one elevations)
Outdoor rendering (sketch) Explanatory text (5-7 sentences) Sketchbook (presentation of the project development)
2. Review – Typology (individual)Mon. 03.11.14/ Tue. 04.11.14
Concept model free scale (ev. casted)Volumina model 1:200 (for integration into the area model)Drawing 1:500 (roof view integrated into the surrounding area)Drawings 1:200 (main floor plans, sections, elevations)Concept display: Structure (axonometric projection or structure model)Interior rendering (sketch)
Outdoor rendering Explanatory text incl. structure report (5-7 sentences) Sketchbook (presentation of the project development)
3. Review – TectonicsMon. 01.12.14/ Tue. 02.12.14
Concept model free scale (ev. casted)Volumina model 1:200 (for integration into the area model)Drawing 1:500 (roof view integrated into the surrounding area)Drawings 1:200 (main floor plans, sections, elevations)Construction section 1:20 or 1:33 (section with interior elevation and clipping plan)Layout proposal, final review
Concept: Structure (axonometric projection or structure model) Interior rendering (sketch) Outdoor rendering Explanatory text incl. structure report (5-7 sentences) Sketchbook (presentation of the project development)
Final ReviewMon. 15.12.14/ Tue. 16.12.14
Concept model free scale (ev. casted)Volumina model 1:200 (for integration into the area model)Drawing 1:500 (roof view integrated into the surrounding area)Drawings 1:200 (main floor plans, sections, elevations)Construction section 1:20 or 1:33 (section with interior elevation and clipping plan)Layout proposal, final review
Concept: Structure (axonometric projection or structure model) Interior rendering (sketch) Outdoor rendering Explanatory text incl. structure report (5-7 sentences) Sketchbook (presentation of the project development)
Reduction layout plans delivered in A3 to assistants Delivered as vector-based PDF file
One-week semester exhibition
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Study Excursion
PROGRAMMTuesday 07.10.14
09:10 Meeting point: Hagneck train station09:30-10:40 Hydropower station Hagneck, Christian Penzel (1) >> introduction Christian Penzel
11:09-12:07 Hagneck > Berne by train Lunch in Berne
13:00-13:45 Sports hall Weissenstein, Christian Penzel (2) On the way : Loryspital by Otto Rudolf Salvisberg (3)
14:15 - 15:45 KVA power station Berne, Graber Pulver (4) >> introduction Thomas Pulver
16:00-16:45 Weichenbauhalle University Berne, Giuliani Hönger (5) >> introduction Christian Hönger
17:00-18:00 Institutsgebäude University Berne, Otto Rudolf Salvisberg (6)
POWERFUL SPACES - POWER STATIONSThis years field trip takes us to powerful ‚infrastructural‘ architecture in Bern and its surroundings. The hydroelectric power station Hagneck (2010-15) as well as the recently completed sports hall Weissenstein (2008-14) are almost didactic examples for congruence between space and structure. This is the results of the fruitful collaboration between the architect Christian Penzel and the structural engineer Martin Valier. In their project KVA Forsthaus (2008-12) Graber Pulver (architects) and Carlo Galmarini (engineer) create a power station as a public building and part of the urban landscape in a transformed industrial area. Next to it, in an old factory building giuliani.hönger built (2005-10) two auditoriums and created a very specific learning environment for the University of Bern. As architects for this university they stand in row with the great Otto Rudolf Salvisberg and his partner Otto Brechbuhl, how built the Institutsneubauten Baltzerstrasse (1928-31) one of the first fairfaced concrete buildings in this city.
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Timetable
WEEK CALENDER LOCATION TIME GOALS
Lausanne rail station 07:40 Meeting on railway track
Train >> Lausannne -‐ Zurich HB 07:50 -‐ 09:58 Transfer
10:30 Meeting at the entrance of the building
10:30 -‐ 12:15 Semester introduction
12:30 -‐ 13:30 Analyse of strong architecture / 'powerful spaces'
13:30 -‐ 14:30 Lunch
ZSG Shipyard 14.30 -‐ 16.30 Site and plot study / Photography
Ship >> Wollishofen -‐ Bürkliplatz 16.53 study of the waterfront / lackeshore
Tue. 16.09.14 Studio 8:30 -‐ 12:00 Atelier organisation
Mon. 22.09.14 Studio 8:30 -‐ 18:00 Internal review
Tue. 23.09.14 Studio 8:30 -‐ 12:00 Internal review
Studio 8:30 -‐ 18:00 Review I / TOPOLOGY
AAC114 16:30 - 17:30 Lecture I
Tue. 30.09.14 Studio 8:30 -‐ 12:00 Review I / TOPOLOGY
Mon. 06.10.14 Studio 8:30 -‐ 18:00 Introduction typology / Internal rewiev
Hagneck 07:45 -‐ 12:00 Analyse of strong architecture / 'powerful spaces'
Berne 13:00 -‐ 18:00 Analyse of strong architecture / 'powerful spaces'
Mon. 13.10.14 Studio 8:30 -‐ 18:00 Internal review
Studio 8:30 -‐ 12:00 Internal review
AAC114 13:00 - 17:00 Workshop
Studio 8:30 -‐ 18:00 Internal review
AAC114 18:00 - 19:00 Lecture II
Tue. 21.10.14 Studio 8:30 -‐ 12:00 Internal review
Mon. 27.10.14 Studio 8:30 -‐ 18:00 Internal review
Tue. 28.10.14 Studio 8:30 -‐ 12:00 Internal review
Mon. 03.11.14 Studio 8:30 -‐ 18:00 Review II / TYPOLOGY
Tue. 04.11.14 Studio 8:30 -‐ 12:00 Review II / TYPOLOGY
Mon. 10.11.14 Studio 8:30 -‐ 18:00 Internal review
Tue. 11.11.14 Studio 8:30 -‐ 12:00 Internal review
Studio 8:30 -‐ 18:00 Internal review
AAC114 11:00 - 12:00 Lecture III
Tue. 18.11.14 Studio 8:30 -‐ 12:00 Internal review
Mon. 24.11.14 Studio 8:30 -‐ 18:00 Internal review
Tue. 25.11.14 Studio 8:30 -‐ 12:00 Internal review
Mon. 01.12.14 To be announced 8:30 -‐ 18:00 Review III TECTONICS
Tue. 02.12.14 To be announced 8:30 -‐ 12:00 Review III TECTONICS
Mon. 08.12.14 Studio 8:30 -‐ 18:00 Internal review
Tue. 09.12.14 Studio 8:30 -‐ 12:00 Internal review
Mo. 15.12.14 To be announced 8:30 - 18:00 Final review
Tue. 16.12.14 To be announced 8:30 - 12:00 Final review
Walking Tour /Lunch
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TEAM GUEST CONTENT
Assist. -‐ Handout Booklet
Assist. -‐ Booklet -‐ Semesterprogram
Prof./ Assist. -‐ Meeting
Prof./ Assist. -‐ Semester & context presentation
Prof./ Assist. -‐ City tour / Visit
All -‐ Sternen Wurst
Assist. Matthias Haab, Project Manager ZSG City tour / Visit
Assist. -‐ City tour / Visit
Assist. -‐ Introduction typology / plans / model
Assist. -‐ Topology / Urban form
Assist. -‐ Topology / Urban form
Prof. / Str. eng / Assist. - Topology / Urban form
Guest I Christoph Wieser To be announced
Prof. / Str. eng / Assist. -‐ Topology / Urban form
Assist. -‐ Typology / Spatial organisation / Powerful Space
Prof./ Assist. Christian Penzel Architecture by Ch. Penzel
Prof./ Assist. Tom Pulver, Graber Pulver Architecture by giulianihönger, O. R. Salvisberg, Graber Pulver, Ch. Penzel
Assist. -‐ Typology / Spatial organisation / Powerful Space
Assist. -‐ Typology / Spatial organisation / Powerful Space
Guest II Yves Dussellier Concrete Models
Prof./ Assist. -‐ Typology / Spatial organisation / Powerful Space
Str. eng Massimo Laffranchi, Fürst Laffranchi Concrete Structure
Prof./ Assist. -‐ Typology / Spatial organisation / Powerful Space
Assist. -‐ Typology / Spatial organisation / Powerful Space / Layout
Assist. -‐ Typology / Spatial organisation / Powerful Space / Layout
Prof. / Str. eng / Assist. - Typology / Spatial organisation / Facade
Prof. / Str. eng / Assist. -‐ Typology / Spatial organisation / Facade
Prof. / Str. eng / Assist. -‐ Tectonics / Construction / Materials / Powerful Space
Prof. / Str. eng / Assist. -‐ Tectonics / Construction / Materials / Powerful Space
Prof. / Str. eng / Assist. -‐ Tectonics / Construction / Materials / Powerful Space
Guest III Aldo Nolli, Nolli Durisch Architecture by Nolli Durisch
Prof. / Str. eng / Assist. -‐ Tectonics / Construction / Materials / Powerful Space
Assist. -‐ Tectonics / Construction / Materials / Powerful Space / Layout
Assist. -‐ Tectonics / Construction / Materials / Powerful Space / Layout
Prof./ Assist. - Tectonics / Construction / Materials / Powerful Space
Prof./ Assist. -‐ Tectonics / Construction / Materials / Powerful Space
Assist. -‐ Project / Presentation / Layout
Assist. -‐ Project / Presentation / Layout
Prof. / Str. eng / Assist. / Guest Andrea Bassi TOPOLOGY / TYPOLOGY / TECTONICS / P0WERFUL SPACE
Prof. / Str. eng / Assist. / Guest Daniel Niggli, EM2N TOPOLOGY / TYPOLOGY / TECTONICS / POWERFUL SPACE
mmeier / rdunant / 20.08.2014
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References
Baths of Caracallae, Rome 212-216 AD Unknow
Hagia Sophia, Istambul 537-1453 Various
Biblioteca Medicea Laurenziana, Florenz 1523–1572 Michelangelo
Palazzo Barberini, Rome 1628-33 Francesco Borromini
Bibliothèque Nationale (project), Paris 1785 Etienne-Louis Boullée
Austrian Post Office Savings Bank, Vienna 1904–1906 Otto Wagner
S.C. Johnson & Son, Wax Building, Wisconsin 1936-39 Frank Lloyd Wright
Hipódromo de la Zarzuela, Madrid 1935-41 Eduardo Torroja
Solomon R. Guggenheim Museum, New York 1943-52 Frank Lloyd Wright
Museum of Modern Art, Rio de Janeiro 1953 Affonso Eduardo Reidy
Church of Our Lady, Mexico, 1953-55 Felix Candela
National Museum of Western Art, Tokyo, 1954-57 Le Corbusier
Jardin Ipe Elementary School , Brazil 1965 Decio Tozzi
FAU-USP Faculty of Architecture, São Paulo, 1961-69 João Batista Vilanova Artigas
Papal Audience Hall, Vatican City, Rome 1963-71 Pier Luigi and Antonio Nervi
Administrativ Center, Pantin-Paris, 1963-72 Kalisz & Perrottet
Burroughs Wellcome Company, North Carolina 1969-72 Paul Rudolph
National Assembly of Bangladesh, Dhaka 1962-73 Louis I. Kahn
Danish National Bank Copenhagen, Denmark 1966-78 Arne Jacobsen
SESC Pompeia, São Paulo, 1977-86 Lina Bo Bardi
Museum La Congiunta, Giornico Switzerland 1989-92 Peter Märkli
Kirchner Museum, Davos Switzerland, 1989-92 Gigon Guyer
Sport hall, Losone Switzerland 1995-1997 Livio Vacchini
Museum Kuppersmuhle MKM, Germany, 1997-99 Herzog & de Meuron
Schaulager ,Munchenstein Basel 1998-03 Herzog & de Meuron
Long Museum , Xuhui, Shanghai 2011-14 Atelier Deshaus
University of Applied Sciences, St.Gallen 2003-13 giuliani.hönger
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FAU-USP, Faculty of Architecture, São Paulo, 1961-69 João Batista Vilanova Artigas
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Baths of Caracallae, Rome 212-216 ADUnknow
Section
Perspective
Hagia Sophia, Istambul 537-1453 Isidore, Anthemius, Tiridates, Astras, Peralta, a.o.
Section
View of the interior
3534
Palazzo Barberini, Rome 1628-33Francesco Borromini
Section through staircase
View in the staircase
Biblioteca Medicea Laurenziana, Florenz 1523–1572Michelangelo di Lodovico Buonarroti
Section
View in the vestibule with staircase
3736
Bibliothèque Nationale (project), Paris 1785Etienne-Louis Boulllée
Section
Perspective
Austrian Post Office Savings Bank, Vienna 1904–1906Otto Wagner
Section
View in Grand Kassenhalle
3938
S.C. Johnson & Son, Wax Building, Racine Wisconsin 1936-39Frank Lloyd Wright
Section
Great Workroom
Hipódromo de la Zarzuela, Madrid 1935-41 Eduardo Torroja (ing.)
Section of the structure
Space under the
4140
Solomon R. Guggenheim Museum, New York 1943-52Frank Lloyd Wright
Section
Exposition space in construction
Museum of Modern Art, Rio de Janeiro 1953Affonso Eduardo Reidy
Section
Exposition space in construction
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National Museum of Western Art, Tokyo, 1954-57Le Corbusier
Section
Exposition central space
Church of Our Lady of the Miraculous Medal, Narvarte Mexico, 1953-55Felix Candela
Isometry of the structure
Interior (in construction)
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Section
Central hall
FAU-USP, Faculty of Architecture, São Paulo 1961-69 João Batista Vilanova Artigas
Jardin Ipe Elementary School, São Bernardo do Campo , Brazil 1965Decio Tozzi
Section
Interior view
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Administrativ Center, Pantin-Paris, 1963-72Kalisz & Perrottet
Section with ramps
Entrance hall with circulations
Paolo VI - Papal Audience Hall, Vatican City, Rome 1963-71Pier Luigi and Antonio Nervi
Section
Hall in construction
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National Assembly of Bangladesh, Dhaka 1962-73Louis I. Kahn
Longitudinal section
View in the Garden Entrance Hall
Burroughs Wellcome Company, North Carolina 1969-72Paul Rudolph
Section perspective
Interior circulation and work space
5150
Danish National Bank Copenhagen, Denmark 1966-78Arne Jacobsen
Section
View in the entrance hall
SESC Pompeia, São Paulo, 1977-86Lina Bo Bardi
Plan
Refurbished shed
5352
Museum La Congiunta, Giornico Switzerland 1989-92Peter Märkli
Longitudinal section
Exposition spaces
Kirchner Museum, Davos Switzerland, 1989-92Gigon Guyer
Longitudinal section
Circulation spaces
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Museum Küppersmühle MKM, Duisburg Germany, 1997-99Herzog & de Meuron
Section
Stairwell in concrete
Sport hall, Losone Switzerland 1995-1997Livio Vacchini
Perspective section
Sport hall
5756
Floor plan
Exposition rooms
Long Museum , Xuhui, Shanghai 2011-14Atelier Deshaus
Schaulager ,Munchenstein Basel 1998-03Herzog & de Meuron
Section
Interior view
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Section
View in the library
Construction section
University of Applied Sciences, St.Gallen 2003-13giuliani.hönger
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BibliographyBötticher Karl: Die Tektonik der Hellenen, Potsdam 1844, in: Stilhulse und Kern, Werner Oechslin (Ed.), Zurich: gta Verlag, Berlin: Ernst&Sohn Berlin, 1994, p.180-187
Deplazes, Andrea, (Ed.): Concrete. In: Constructing Architecture – A Handbook, Basel, Boston, Berlin: Birkhäuser – Publisher for Architecture, 2008, P. 57-77
Furst, Armand and Laffranchi Massimo: Ways to innovative solutions, in: Dialog der Konstrukteure, Architekturforum Zurich and A. Flury (Eds.), Niggli, 2010, p. 113-118
Gargiani Roberto, Rosellini Anna, Beton Brut and Ineffable Space (1940 1965): Surface Materials and Psychophysiology of Vision (Essays in Architecture), Edition Detail 2014
Giuliani Lorenzo and Hönger Christian: Schnittwerk, Zurich: gta Verlag, 2010, p. 14-23
Kind-Barkauskas F., Kauhsen B., Polónyi S.,Brandt J.: Beton Atlas: Entwerfen mit Stahlbeton im Hochbau, Basel: Birkhäuser Verlag 2001. In particular: Entwicklung der Betontechnologie, p.9-17
Kind-Barkauskas F., Kauhsen B., Polónyi S.,Brandt J.: Beton Atlas: Entwerfen mit Stahlbeton im Hochbau, Basel: Birkhäuser Verlag 2001. In particular: Stahlbeton in der Architektur der Moderne, p. 18-43
Kahn Louis I., Architecture Comes from the Making of a Room, Drawing for City/2 exhibition, 1971
Lucan Jacques, Hypothèse pour une spatialité texturée, in: matières numéro 9 - l’espace architectural 2008, Herausgeber: Faculté Environnement naturel, architectural et construit ENAC, Institute d’architecture et de la ville IA und Laboratoire de théorie et d’histoire LTH, p.06-17
Pouillon Fernand, Architecte méditerranéen, Marseille 2001, S. 19
Schmarsow August, The essence of architectural creation 1893,unter: http://bibliodarq.files.wordpress.com/2012/08/schmarsow-a-the-essence-of-architectural-creation.pdf
Šik Miroslav, And now the Ensemble!!!, Lars Mueller Publishers GmbH Zurich 2012
Phillips Exeter Academy Library, Exeter New Hampshire USA 1965-71Louis I. Kahn
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Structure test of the mexican shellFelix Candela
TeamLorenzo GiulianiBorn 1962 in St.Moritz, 1988 Diploma ETHZ, Prof. Ernst Studer; Assistent to Prof. Ernst Studer, ETH Zurich, ; Assistent to Prof. Dr. André Corboz (Urbanism), ETH Zurich, 1991-93; since 1995 Professorship at ZHAW Winterthur (Architecture and Urbanism); since 1998 Professorship at ZHAW Winterthur (Design); since 2003 Professor at the ZHAW; since 1991 own pratice with Christian Hönger; Member of BSA, SIA; 2006 Exhibition: giuliani.hönger at the Institut GTA ETH Zurich; 2010 Exhibition: Schnittwerk at the Aedes Galerie in Berlin.
Christian HöngerBorn 1959 in Zurich; Architectural Studies at Technikum Winterthur 1979-1982, Diploma 1982; Architectural Studies at ETH Zurich, 1983-1987; Diploma 1987, Prof. D. Schnebli; Assistent to Prof. E. Studer (Design) ETH Zurich, 1990-1993; Assistent by Dr. B. Klein (Urbanism) ETH Zurich, 1993-1994; Professorship (Design) at the FHNW, Basel, 1999-2003; Professor (Design) at the HSLU Luzern, since 1991 own pratice with Lorenzo Giuliani; Member of BSA, SIA; 2006 Exhibition: giuliani.hönger at the Institut GTA ETH Zurich; 2010 Exhibition: Schnittwerk at the Aedes Galerie in Berlin.
Armand FürstBorn 1965 in Wolfwil, 1989 Diploma as Structural Engineer HTL Burgdorf; 1992 Diploma ETH Gold Mention; employed by Engineers Grignoli Martinola Muttoni in Lugano, 1992-1994; Assistent to Prof. Dr. P. Marti, ETH Zurich, 994-2000; 2000 Dr. D. ETH with Theme „Pre-stressed tension member of concrete for Bridge“, under Prof. Dr. P. Marti, ETH Zurich; since 2000 own practice together with Dr. Massimo Laffranchi; Member of SIA; Member of the SIA-Norms Committee; President of the Committee of Research about Structures FEDRO (Federal Road Office), 2006-2011.
Massimo LaffranchiBorn 1969 in Bellinzona, 1993 Diploma Structural Engineer ETH, 1993-99 Assistent to Prof. Dr. P. Marti, ETH Zurich; 1999 Ph.D. ETH, focusing on the conception of curved bridges, under Prof. Dr. P. Marti, ETH Zurich; employed by engineers Stocker & Partner in Bern, 1999-2001; since 2000 own practice together with Dr. Armand Furst; Member of SIA; Member of the SIA-Norms Committee; 2007 Best Teaching Award at the Accademia di architettura di Mendrisio; Professor at the Accademia di architettura di Mendrisio, 2000-2009; Professor for Reinforced Concrete Structures at Accademia di architettura di Mendrisio, 2009-13; since 1995 collaboration with the Society Historic Civil Engineering, since 2006 Commitee Member.
Michael MeierBorn 1981 in Bern; Psychology studies, University of Bern, 2002-03; Architectural studies, Zurich / Glasgow, 2003-08; 2008 Diploma ETHZ, Prof. Josep Lluis Mateo, 2009; 2006 Intern at Barkow Leibinger, Berlin; 2010 Study trip to New York / Chicago, Erich Degen-Stiftung; Project leader, Jessen + Vollenweider, Basel, 2009-13; since 2012 Partner SAAS, Geneva.
Raphaël DunantBorn 1979 in Lausanne, Architectural Draughtsman Internship 1995-99; CMS EPF Lausanne 1999-01; Draughtsman at CCHE Lausanne, Bauzeit Bienne, Hoyer Schindele Berlin; Architectural studies at ETH Zurich 2002-09; Diploma ETHZ, Prof. Markus Peter, 2009; Junior Architect at Penzel gmbh, Zurich, 2006; Project leader assistant at Graber Pulver Architects Zurich 2009-14; 2014 own architectural practice in Geneva.
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AddressEPFL ENAC ArchitectureBuilding SG 2210 / Station 15CH - 1015 Lausanne
+41 21 693 59 64
www.giulianihoenger.epfl.ch