Integral Façade ConstructionBuilding processes and optimal material application for curtain wall façades

BMW 1200GS (source: www.bmw.com)

Integral Product Architectur

Modular Product Architecture

Audi space frame 2006

Peugeot 1935

4

Laptop

Destop computer

Integral Product Architectur

Modular Product Architecture

5

IPhone

Walkman

Integral Product Architectur

Modular Product Architecture

Palm House, Kew Gardens London, Richard

Turner und Decimus Burton 1841-1849

Curtain walls

First steel-glass construction during the industrial revolution

Bauhaus in Dessau, Walter Gropius und Adolf Meyer, Dessau 1926

Curtain walls

Skeleton building structures allowed the separation of façade and the load bearing structure

Lever House, Skidmore Owings and Merril, New York 1952

Curtain walls

Architectonic symbol of the post-war period

RWE Tower, Ingenhoven Overdiek Kahlen & Partner, Essen, 1997

Curtain walls

Development of double facades in the 90ies

Curtain walls

Still one of the most applied façade systems

Horten Building, 3XN, Kopenhagen 2010

- In the stress field between industrial processes and craftsmanship building

- Many physical interfaces must be solved on site!

The design and construction process of facades

Proposition:

Building processes strongly determine the choice of materials.

or:

New material applications require new processes.

The design and construction process

Complex interaction with many different stakeholders

Interaction of stakeholders

The process has many interfaces and bears risks

Building industry

Decentral innovation

Integrated Design Team

Subcomponents

Assembler

Product

Subassemblies Subassemblies Subassemblies

Automotive industry

Centrally controlled integration

Construction detail

Extreme modular product architecture

Future process requirements

Future process requirements

More decisions at an earlier stage

Next Active FacadesAlcoa Aluminium Systems, Somfy, TROX, TU Delft, Façade Research Group, 2011

Building services integrated façade concept

Allianz Arena, MünchenHerzog & De Meuron, 2005

One of the first large projects with foil materials

Allianz Arena, MünchenHerzog & De Meuron, 2005

One of the first large projects with foil materials

Windesheim Gebouw X, ZwolleBroekbakema, Holland Composites Industrials, 2010

Integral construction with 12m high elements from glass fibre reinforced plastics

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Windesheim Gebouw X, ZwolleBroekbakema, Holland Composites Industrials, 2010

Integral construction with 12m high elements from glass fibre reinforced plastics

Rapid Manufacturing

Foldable design chair ‘One Shot.MGX’ by Patrick Jouin

AM Manufacturing

New production technologies lead to new material applications

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AM Manufacturing

New production technologies lead to new material applications

http://abe.tudelft.nl/

Result Masterthesis: Bart van den Ende, TU Delft, Summer 2010

Result Electis Module: Christian Wedi, IFDC, University of Applied Sciences Detmold, Germany, Winter 2009

http://abe.tudelft.nl/

AM Manufacturing

New production technologies lead to new material applications

Liquid Crystal

Zustand zwischen flüssigen und festen Kristallen

Bekannt von LCD Bildschirmen

Chiral nematic phase

Twist der Moleküle in einer Helix Struktur

Kann potentiell verschiedene Lichtwellenlängen reflektieren

Chiral nematic film

Nano Technology

High tech on a different scale will offer unexpected possibilities

Dear Film reflektíert kreisförmig polarisiertes Licht

Die Rotation der Moleküle bestimmt die Wellelänge des reflektierten Lichts

Der Winkel kann verändert werden durch den Einfluß von

- Temperatur,

-Sonnenseinstrahlun oder

- elektrische Impulse

Chiral nematic film

Nano Technology

High tech on a different scale will offer unexpected possibilities

Solare Kontrollsysteme

Solarer Energie Anteil:

Uultraviolettes Licht

– 100-380nm

– 6 % of energy

Sichtbares Licht

– 380-780 nm

– 48 % der Energy

Infrarot

– 780- 3000nm

– 46 % der Energy

Solarspektrum

Nano Technology

High tech on a different scale will offer unexpected possibilities

Solare Kontrollsysteme

Solarer Energie Anteil:

Uultraviolettes Licht

– 100-380nm

– 6 % of energy

Sichtbares Licht

– 380-780 nm

– 48 % der Energy

Infrarot

– 780- 3000nm

– 46 % der Energy

Solarspektrum

Nano Technology

High tech on a different scale will offer unexpected possibilities

Solare Kontrollsysteme

Solarer Energie Anteil:

Uultraviolettes Licht

– 100-380nm

– 6 % of energy

Sichtbares Licht

– 380-780 nm

– 48 % der Energy

Infrarot

– 780- 3000nm

– 46 % der Energy

Solarspektrum

Nano Technology

High tech on a different scale will offer unexpected possibilities

Conclusion

- The design and construction process of facades (buildings) is unique and has a strong influence on the application of new building materials

- The use-phase and the end-of-life phase will move into the focus of architects and system and products design.

- We will see a larger diversification of construction types as well as new material applications

- We will face a knowledge gap between designers and executing parties

- Integrated design-teams and proceedures are required

- This will have an effect on the education of architects and building specialists.

Integral Façade ConstructionBuilding processes and optimal material application for curtain wall façades