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PRODUCT DEVELOPMENT LABPIETER STOUTJESDIJK
PROCESS INGREDIENTS
1 MACHINE 1 MATERIAL 1 FILE
PROF. LAWRENCE SASS
CNC AZCMACHINE
1 CNC MACHINE CNC AZC1 MATERIAAL
CNC bewerkingscentrum 4-assen Merk: Biesse / SCM / HomagWerkveld: 5200*1200*300mm
Type bed: Flat Table
Randapperatuur:Vacuumpompen 2x250m3/h
Stofafzuiging 5000m3/hCompressor + Vriesdroger 10bar
Autoamtische belading / vacuumliftAutomatische belossing / rollerbank
PC
Totale kosten: €120.000-€450.000Totaal verbruik: 18-27kW
1 DATABASE
1 MACHINE
TOOLSEr zijn oneindig veel tools beschikbaar in allerlei vormen en materialen. Door het optimaal inzetten van de 3e en 4e as in combinatie met de vorm van de tool is vrijwel elke ‘2,5D’ vorm te produc-eren. Bewerking vindt wel altijd plaats aan de bovenzijde van het materiaal. Met deze limitatie moet dus slim worden omgegaan in het ontwerp.
16
22
STANDAARD FREES DIA16mm L221 snijder DIAMANTsnelheid 4m/min (bij MP Depth=22mm/pass)
STANDAARD FREES DIA16 L301 snijder DIAMANTsnelheid 3m/min(depth max=30mm/pass)16.0
50.0
19.0
4.675
KLEINE FREES DIA4.765 L194 snijders solid carbidesnelheid 0,5m/min(bij MP Depth=3mm/pass)
KLEINE FREES DIA5MM Lxx2 snijders hardmetaalsnelheid 0,5m/min(bij MP Depth=3mm/pass)
5.0
MEDIUM FREES DIA10mm L323 snijders hardmetaalsnelheid 2.5m/min (bij MP Depth=18mm/pass)
32.0
32.0
MEDIUM FREES DIA10mm L473 snijders hardmetaalsnelheid 2.5m/min (bij MP Depth=18mm/pass)
45 GRADEN FREES2 snijders carbidesnelheid = 4m/min (bij MP Depth=max 20mm)
20.9
23.070.00.
5
VLAK FREES DIA70 L0.52 snijderssnelheid 4m/min(bij MDF Depth=0,5mm/pass)
CNC MITER JOINT A2 snijders carbidesnelheid = 3m/min (bij MP Depth=max 20mm)
CNC MITER JOINT B2 snijders carbidesnelheid = 3m/min (bij MP Depth=max 20mm)
45 GRADEN INVERSE8 snijders hardmetaalsnelheid 2m/min(nabewerker)
BOLLE KANT FREES2 snijders carbidesnelheid 1m/min(nabewerker)
20.0
25.3
5.015
.0
6.0
19.0
Prijs
€150/m2 €0/m2
Duurzaamheid
LAAG HOOG
Milieubelasting
HOOG LAAG
Freesbaarheid
LAAG HOOG
Nabewerking
NODIG NIET NODIG
Leverbaarheid
SLECHT GOED
Vochtbestendigheid
LAAG HOOG
Belastbaarheid
LAAG HOOG
Gewicht
2000kg/m3 0kg/m3
CNC AZCMATERIAAL
ECOboard / OSB Multiplex Asco Timber Berken HPL BambooSpaanplaat Melamine Viroc WPC board Volkern
Uitstraling
LAAGWAARDIG HOOGWAARDIG
1 CNC MACHINE CNC AZC1 MATERIAAL 1 DATABASE
ECOboard van plantaardige landbouwoverschotten, OSB in E0 verkrijgbaar
Sterk afhankelijk van type
Alle vezels van reststromen
Afgewerkte HPL versie verkrijgbaar
Slechts 1 leverancier
Watervast verlijmd, zet nauwelijks uit
Witte variant direct leverbaar, kleur heeft plaktijd nodig van enekel dagen
Witte variant direct leverbaar, kleur heeft plaktijd nodig van enekel dagen
Watervast verlijmde soort verkrijgbaar
Speciaal vochtbestendige soort verkrijgbaar
Olie nodig
Zeer bros, oppervlak zeer hard
Cement in plaat is zeer slecht voor machine
Zeer hard, zeer hoge toolcosts
Product uit Spanje, beperkte voorraad in NL, slechts in dikte 12
Nog geen Europese importeurs
Vezels nemen water op
Grote afname doorgaans levertijd van 7 weken
Plaat is splijtgevoelig
1 MATERIAL
1 MACHINE 1 MATERIAL 1 FILE
EXTREMEINTEGRATION
DESIGNING ENGINEERING MAKING
DESIGNING ENGINEERING
MAKING
ADVANTAGES
THE NEXT INDUSTRIAL REVOLUTION
DIGITAL CRAFT, ORNAMENT AESTHETICS
LOCAL PRODUCTION SHARED COLLECTIVE O.S. INTELLIGENCE
INTEGRATING DESIGN & MAKING
INTEGRATING ART & SCIENCE
DEMOCRATIZING INNOVATIONS
MASS CUSTOMIZATION
4.3 A NEW KIND OF ORNAMENTATION4.1 MICRO MASS-CUSTOMIZATION
4.2 COMPUTER GENERATED PATTERNS, MATHEMATICS
3.1 DEFINITION3.2 CULTURAL PRODUCTION
3.3 OTHER INDUSTRIES
3.4 MASS CUSTOMIZATION IN ARCHITECTURE
2.1 DEMOCRATIZE THE OPPORTUNITY TO CREATE
2.2 PERSONAL AND SHARED FABRICATION TOOLS
2.3 FABRICATION SUPPORTING WEB-BASED TOOLS
2.4 REDEFINING THE NATURE OF ECONOMY
2.5 TAPPING THE LONG TAIL OF TALENT
2.6 SATISFACTION IN THE CREATIVE PROCESS
2.7 RELATED TO HUMANITARIAN AID
8.3 ANALYZING AND SELCTION TOOLS
8.4 BIM, ONE INTEGRAL MODEL
8.5 PERFORMATIVE ARCHITECTURE
8.6 THE MASTER BUILDER: CENTRAL HUB
8.1 HISTORY OF SEPARATION
7.4 THE MASTER BUILDER: ARTIST + CRAFTSMAN 7.3 PROCESS: FILE TO FACTORY
7.2 OTHER INDUSTRIES: SPACECRAFT, SHIPBUILDING
7.1 HISTORY OF SEPARATION
6.5 POTENTIAL FOR ARCHITECTURE
6.1 DIGITAL BLUEPRINTS OF PHYSICAL OBJECTS
6.2 OPEN SOURCE HARDWARE5.1 PRODUCTION BACK FROM EAST
5.2 CLOSING RESOURCE CYCLES 5.3 LOCAL DESIGN INTERVENTION
6.3 THE NEW O.S. BUSINESS MODEL
6.4 EXAMPLE PROJECTS
8.2 HUGE AMOUNTS OF DATA
2.8 RELATED TO ARCHITECTURE
INTELLIGENCE FROM SOFTWARE
INTELLIGENCE FROM AMATEURS
SOFT TYPES OF DATA
MOST DATA ALREADY DIGITAL
PETABYTE
POTENTIAL FOR NEW ARCHITECT
ARCHITECTS LOST IN VISIONARY CULTURE
GREATER RESPONSIBILITY > GREATER REWARDS
IMPROVED EFFICIENCY REDUCING MISTAKES
BLOBS: EARLY RE-EMERGING
GAP BETWEEN DESIGN AND CONSTRUCTION
SEPARATION IN THE RENAISSANCEARCHITECT WAS BOTH DESIGNER AND BUILDER
OPEN ARCHITECTURE NETWORK GLOBAL VILLAGE CONSTRUCTION SET
OS CAR
QUIRKY
GREAT PART ALREADY BUILD BY AMATEURS
MORE INFLUENCEKNOWLEDGE OF MAKING
SEPARATION BY ECOLE DES BEAUX ARTS
FURTHER FRAGMENTATION THROUGH SPECIALISTS
SPEED
CABIN
QUALITY
FLEXIBILITY
DIGITAL BUILDING INDUSTRY
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APP STORE FAB STORESOFTWARE + HARDWARE
APP STORE FAB STORE
APP STORE FAB STORESOFTWARE + HARDWARE
DATABASE
APP STORE
OPEN SOURCE & REGULATED
EXPONENTIAL GROWTH EXPONENTIAL GROWTH
CONTRIBUTIONSCONTRIBUTIONS
REGULATIONSREGULATIONS
FAB STORE
APP STORE FAB STORESOFTWARE + HARDWARE
DATABASE
APP STORE
OPEN SOURCE & REGULATED
EXPONENTIAL GROWTH
DIGITAL PHYSICALENTERTAINMENT HOUSESINFORMATION PAVILIONSCOMMUNICATION OFFICES
EXPONENTIAL GROWTH
CONTRIBUTIONSCONTRIBUTIONS
REGULATIONSREGULATIONS
FAB STORE
APP STORE FAB STORESOFTWARE + HARDWARE
PARAMETRIC ADJUSTMENTS
APP STORE FAB STORE
GENERAL SETTINGS + SETTINGS OF COMPONENTS
2.4M 3.6M 4.8M
2.4M 3.6M 4.8M
SLOPING
SLOPING
SPECIALS
BALLUSTRADEH=0.6 WINDOW SMALL
H=0.6 WINDOW LARGE
SLOPE 1:3 FILL CORNER
SLOPE 1:3CORNER
SLOPE 1:3 FILL H=200
SLOPE 1:3END
SLOPE 1:3ANGLE 18
SLOPING
SLOPE 1:2ANGLE 27
SLOPE 1:1ANGLE 45
SLOPE 1:1END
SLOPE 1:2END
SLOPE 1:2 FILL H=300
SLOPE 1:1 FILL H=600
SLOPE 1:2FILL CORNER
SLOPE 1:1FILL CORNER
SLOPE 1:2CORNER
SLOPE 1:1CORNER
STANDARD .6
H=2.4CORNEROUTER
CORNERINNER WINDOW MEDIUM
STANDARD 0.6
H=3.0
WINDOW MEDIUMCORNERINNER
CORNEROUTER WINDOW LARGE WINDOW LARGE BOTTOM DOOR STANDARD
DOOR STANDARDWINDOW LARGE BOTTOM
H=3.6
STANDARD 0.6 WINDOW MEDIUM WINDOW LARGE WINDOW LARGE BOTTOM DOOR STANDARDCORNERINNER
CORNEROUTER
STANDARD
STANDARD
SIDE L
SIDE L
TERRACE
STANDARD
BEAM
BEAM HALF
SMALL
SMALL
SMALL SIDE L
SMALL SIDE L
FLOOR
BLOCK BASE POINT = BOTTOM LEFT LOWER CORNERBLOCK NAME = CATEGORY - SUB CATAGORY - DESCRIPTIONWALL
FABFIELD 1.0
FABFIELD 1.0
2.4M 3.6M 4.8M
2.4M 3.6M 4.8M
SLOPING
SLOPING
SPECIALS
BALLUSTRADEH=0.6 WINDOW SMALL
H=0.6 WINDOW LARGE
SLOPE 1:3 FILL CORNER
SLOPE 1:3CORNER
SLOPE 1:3 FILL H=200
SLOPE 1:3END
SLOPE 1:3ANGLE 18
SLOPING
SLOPE 1:2ANGLE 27
SLOPE 1:1ANGLE 45
SLOPE 1:1END
SLOPE 1:2END
SLOPE 1:2 FILL H=300
SLOPE 1:1 FILL H=600
SLOPE 1:2FILL CORNER
SLOPE 1:1FILL CORNER
SLOPE 1:2CORNER
SLOPE 1:1CORNER
STANDARD .6
H=2.4CORNEROUTER
CORNERINNER WINDOW MEDIUM
STANDARD 0.6
H=3.0
WINDOW MEDIUMCORNERINNER
CORNEROUTER WINDOW LARGE WINDOW LARGE BOTTOM DOOR STANDARD
DOOR STANDARDWINDOW LARGE BOTTOM
H=3.6
STANDARD 0.6 WINDOW MEDIUM WINDOW LARGE WINDOW LARGE BOTTOM DOOR STANDARDCORNERINNER
CORNEROUTER
STANDARD
STANDARD
SIDE L
SIDE L
TERRACE
STANDARD
BEAM
BEAM HALF
SMALL
SMALL
SMALL SIDE L
SMALL SIDE L
FLOOR
BLOCK BASE POINT = BOTTOM LEFT LOWER CORNERBLOCK NAME = CATEGORY - SUB CATAGORY - DESCRIPTIONWALL
FABFIELD 1.0
FABFIELD 1.0
2.4M 3.6M 4.8M
2.4M 3.6M 4.8M
SLOPING
SLOPING
SPECIALS
BALLUSTRADEH=0.6 WINDOW SMALL
H=0.6 WINDOW LARGE
SLOPE 1:3 FILL CORNER
SLOPE 1:3CORNER
SLOPE 1:3 FILL H=200
SLOPE 1:3END
SLOPE 1:3ANGLE 18
SLOPING
SLOPE 1:2ANGLE 27
SLOPE 1:1ANGLE 45
SLOPE 1:1END
SLOPE 1:2END
SLOPE 1:2 FILL H=300
SLOPE 1:1 FILL H=600
SLOPE 1:2FILL CORNER
SLOPE 1:1FILL CORNER
SLOPE 1:2CORNER
SLOPE 1:1CORNER
STANDARD .6
H=2.4CORNEROUTER
CORNERINNER WINDOW MEDIUM
STANDARD 0.6
H=3.0
WINDOW MEDIUMCORNERINNER
CORNEROUTER WINDOW LARGE WINDOW LARGE BOTTOM DOOR STANDARD
DOOR STANDARDWINDOW LARGE BOTTOM
H=3.6
STANDARD 0.6 WINDOW MEDIUM WINDOW LARGE WINDOW LARGE BOTTOM DOOR STANDARDCORNERINNER
CORNEROUTER
STANDARD
STANDARD
SIDE L
SIDE L
TERRACE
STANDARD
BEAM
BEAM HALF
SMALL
SMALL
SMALL SIDE L
SMALL SIDE L
FLOOR
BLOCK BASE POINT = BOTTOM LEFT LOWER CORNERBLOCK NAME = CATEGORY - SUB CATAGORY - DESCRIPTIONWALL
FABFIELD 1.0
FABFIELD 1.0
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IMAGE: NICK VAN DER KNAAP
ASSEMBLY 1.0 FABFIELD 1.4PREFABRICATED MODULAR HOME
ISOMETRIC VIEW OF BUILDING BLOCKS DESIGN YOUR OWN! > FABFIELD.COM
CHARACTERISTICS
MAPA ARCHITECTS
THE NEW MAKERS MERGING THE DIGITAL AND PHYSICAL WORLDS NO RIGHTS MAY BE DERIVED FROM THE INFORMATION AND CALCULATED VALUES CONTAINED IN THIS DOCUMENT
BVO 20.16 m2 Freestijd 43.1 uur
NVO 16.02 m2 Prefab assemblage 75.2 manuren
VVO 17.88 m2 2 personen 5 dagen
On-site montage 81.8 manuren
Prefab geleverd €29,592.76 2 personen 5.5 dagen
On-site gebouwd €38,284.57
Prijs/m2 prefab €1,467.89 Transportvolume 66.4 m3
Prijs/m2 on-site €1,899.04 Totaal gewicht ex gevel 8858 kg
CO2 opslag ex gevel 4.7 ton
Gevel Transportdichtheid 133 kg/m3
Oppervlakte 117 m2 Suggested transport
Prijs On-site €3,333.79 Round trips 9
Locatie Fabriek Delft Afstand tot FabFac 63 km
Bestemming (voorbeeld) Amsterdam Huurkosten 2 dagen
Daghuur €73.00 elke €314.12 (incl. km-toeslag)
40 km Benzinekosten €123.04
Benzinekosten/km €1.95 CO2 transport 190 kg
CO2 productie/km 3.0 kg
Eternit golfplaten
Ford Transit 8m3
BVO 20.16 m2 Freestijd 43.1 uur
NVO 16.02 m2 Prefab assemblage 75.2 manuren
VVO 17.88 m2 2 personen 5 dagen
On-site montage 81.8 manuren
Prefab geleverd €29,592.76 2 personen 5.5 dagen
On-site gebouwd €38,284.57
Prijs/m2 prefab €1,467.89 Transportvolume 66.4 m3
Prijs/m2 on-site €1,899.04 Totaal gewicht ex gevel 8858 kg
CO2 opslag ex gevel 4.7 ton
Gevel Transportdichtheid 133 kg/m3
Oppervlakte 117 m2 Suggested transport
Prijs On-site €3,333.79 Round trips 9
Locatie Fabriek Delft Afstand tot FabFac 63 km
Bestemming (voorbeeld) Amsterdam Huurkosten 2 dagen
Daghuur €73.00 elke €314.12 (incl. km-toeslag)
40 km Benzinekosten €123.04
Benzinekosten/km €1.95 CO2 transport 190 kg
CO2 productie/km 3.0 kg
Eternit golfplaten
Ford Transit 8m3
FABFIELD 1.4
ISOMETRIC VIEW OF BUILDING BLOCKS DESIGN YOUR OWN! > FABFIELD.COM
NO RIGHTS MAY BE DERIVED FROM THE INFORMATION AND CALCULATED VALUES CONTAINED IN THIS DOCUMENT THE NEW MAKERS MERGING THE DIGITAL AND PHYSICAL WORLDS
ASSEMBLY 4.0MARIANNE BORGE ARCHITECTSWOODY 15
BVO 24.48 m2 Freestijd 25.2 uur
NVO 19.57 m2 Prefab assemblage 47.2 manuren
VVO 20.76 m2 2 personen 3 dagen
On-site montage 47.7 manuren
Prefab geleverd €19,963.76 2 personen 3 dagen
On-site gebouwd €25,196.82
Prijs/m2 prefab €815.51 Transportvolume 43.5 m3
Prijs/m2 on-site €1,029.28 Totaal gewicht ex gevel 6506 kg
CO2 opslag ex gevel 3.3 ton
Gevel Transportdichtheid 150 kg/m3
Oppervlakte 78 m2 Suggested transport
Prijs On-site €2,211.27 Round trips 9
Locatie Fabriek Delft Afstand tot FabFac 63 km
Bestemming (voorbeeld) Amsterdam Huurkosten 2 dagen
Daghuur €59.00 elke €258.10 (incl. km-toeslag)
40 km Benzinekosten €85.73
Benzinekosten/km €1.36 CO2 transport 180 kg
CO2 productie/km 2.9 kg
Eternit golfplaten
Mercedes Vito (D)
BVO 24.48 m2 Freestijd 25.2 uur
NVO 19.57 m2 Prefab assemblage 47.2 manuren
VVO 20.76 m2 2 personen 3 dagen
On-site montage 47.7 manuren
Prefab geleverd €19,963.76 2 personen 3 dagen
On-site gebouwd €25,196.82
Prijs/m2 prefab €815.51 Transportvolume 43.5 m3
Prijs/m2 on-site €1,029.28 Totaal gewicht ex gevel 6506 kg
CO2 opslag ex gevel 3.3 ton
Gevel Transportdichtheid 150 kg/m3
Oppervlakte 78 m2 Suggested transport
Prijs On-site €2,211.27 Round trips 9
Locatie Fabriek Delft Afstand tot FabFac 63 km
Bestemming (voorbeeld) Amsterdam Huurkosten 2 dagen
Daghuur €59.00 elke €258.10 (incl. km-toeslag)
40 km Benzinekosten €85.73
Benzinekosten/km €1.36 CO2 transport 180 kg
CO2 productie/km 2.9 kg
Eternit golfplaten
Mercedes Vito (D)
FABFIELD 1.4
ISOMETRIC VIEW OF BUILDING BLOCKS DESIGN YOUR OWN! > FABFIELD.COM
NO RIGHTS MAY BE DERIVED FROM THE INFORMATION AND CALCULATED VALUES CONTAINED IN THIS DOCUMENT
ASSEMBLY 3.0VEGA COTTAGE KOLMAN BOYE ARCHITECTS
THE NEW MAKERS MERGING THE DIGITAL AND PHYSICAL WORLDS
BVO 51.84 m2 Freestijd 61.7 uur
NVO 42.00 m2 Prefab assemblage 109.4 manuren
VVO 45.83 m2 2 personen 7 dagen
On-site montage 124.1 manuren
Prefab geleverd €52,279.52 2 personen 8 dagen
On-site gebouwd €65,549.00
Prijs/m2 prefab €1,008.48 Transportvolume 114.0 m3
Prijs/m2 on-site €1,264.45 Totaal gewicht ex gevel 16190 kg
CO2 opslag ex gevel 3.4 ton
Gevel Transportdichtheid 142 kg/m3
Oppervlakte 149 m2 Suggested transport
Prijs On-site €4,224.94 Round trips 23
Locatie Fabriek Delft Afstand tot FabFac 63 km
Bestemming (voorbeeld) Amsterdam Huurkosten 5 dagen
Daghuur €59.00 elke €699.70 (incl. km-toeslag)
16 km Benzinekosten €219.09
Benzinekosten/km €3.48 CO2 transport 459 kg
CO2 productie/km 7.3 kg
Eternit golfplaten
Mercedes Vito (D)
BVO 51.84 m2 Freestijd 61.7 uur
NVO 42.00 m2 Prefab assemblage 109.4 manuren
VVO 45.83 m2 2 personen 7 dagen
On-site montage 124.1 manuren
Prefab geleverd €52,279.52 2 personen 8 dagen
On-site gebouwd €65,549.00
Prijs/m2 prefab €1,008.48 Transportvolume 114.0 m3
Prijs/m2 on-site €1,264.45 Totaal gewicht ex gevel 16190 kg
CO2 opslag ex gevel 3.4 ton
Gevel Transportdichtheid 142 kg/m3
Oppervlakte 149 m2 Suggested transport
Prijs On-site €4,224.94 Round trips 23
Locatie Fabriek Delft Afstand tot FabFac 63 km
Bestemming (voorbeeld) Amsterdam Huurkosten 5 dagen
Daghuur €59.00 elke €699.70 (incl. km-toeslag)
16 km Benzinekosten €219.09
Benzinekosten/km €3.48 CO2 transport 459 kg
CO2 productie/km 7.3 kg
Eternit golfplaten
Mercedes Vito (D)
ROOF PANEL
GUTTER
WALL PANEL
TOP PANEL
TOP BRACKET
BOTTOM BRACKET
IMAGE: JEROEN VAN VEEN
36 MM
8 MM
21 MM
6 MM
10 N/MM 2
-24N/MM 2
IMAGE: JEROEN VAN VEEN
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DIGITAL FABRICATION PROCESS
1:1
1:10
4 - 26 en-938819/5
4.5 Programming Movements4.5.1 Linear Interpolation
G01Z Y
XOP
G01 Linear interpolation at theprogrammed feed rate.
The programmed point is reached by alinear path at the programmed feed rate.
The path is a combination of all the axismovements programmed in the block.
Programmable axes:- X, Y, Z primary axes,- U, V, W secondary axes,- A, B, C rotary axes.
Syntax
N.. [G90/G91] G01 [R+/R-] X.. Y.. Z.. [F..]
G90/G91 Programming in absolute or incremental dimensions.
G01 Linear interpolation at the programmed feed rate.
R-/R+ The position is before or after the programmed point.The distance is equal to the tool radius declared.
X.. Y.. Z.. End point:- Point coordinates with G90.- Value of the movement with G91.
F.. Feed rate (see Sec. 4.7).
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IMAGE: JEROEN VAN VEEN
A
C
B
D
IMAGE: JEROEN VAN VEEN
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IMAGE: JEROEN VAN VEEN
DESIGNING ENGINEERING
MAKING
21ST CENTURYMASTER BUILDERS
MASTER BUILDER
MASTER BUILDER
RENAISSANCE
MASTER BUILDER
RENAISSANCE
INTEGRATED BY DIGITAL FABRICATION
BUILDING DE IGNINGS
MASTER BUILDER
RENAISSANCE
‘ECOLE DES BEAUX ARTS’
INTEGRATED BY DIGITAL FABRICATION
BUILDING DE IGNINGS
MASTER BUILDER
INTEGRATED BY DIGITAL COMPUTATION
RENAISSANCE
‘ECOLE DES BEAUX ARTS’
INTEGRATED BY DIGITAL FABRICATION
ART SCIENCE
BUILDING DE IGNINGS