fig 1011A, photo, Model 1/500 -1/50 mobility hub
fig 1011B, photo, Model 1/500 -1/50 mobility hub
fig 1011C, photo, Model 1/500 -1/50 mobility hub
fig 1011D, photo, Model 1/500 -1/50 mobility hub
fig 996A, photo, End Presentation, Axonometric Drawing
fig 994A, Hangend gebouw onder viaduct
fig 994B, Hangend gebouw onder viaduct
fig 994C, Hangend gebouw onder viaduct
fig 994D, Hangend gebouw onder viaduct
fig 993A, Plan Walkway
fig 993B, Plan Walkway
fig 993C, Plan Walkway
fig 993D, Plan Walkway
fig 980A, photo, Site visit W6
fig 980B, photo, Site visit W6
fig 980C, photo, Site visit W6
fig 967A, analyse maquette
fig 967B, analyse maquette
fig 966A, finaale maquette
fig 966B, finaale maquette
fig 966C, finaale maquette
fig 964A, interieur render voorontwerp
fig 947A, Analyse
fig 947B, Analyse
fig 947C, Analyse
fig 947D, Analyse
fig 945A, Onderzoek industriebouw
fig 945B, Onderzoek industriebouw
fig 945C, Onderzoek industriebouw
fig 943A, Analyse Loods
fig 943B, model, Analyse Loods
fig 943C, drawing, Analyse Loods
fig 943D, drawing, Analyse Loods
fig 942A, Axometrie
fig 939A, photo, Picobello
fig 938A, Luminus
fig 936A, photo, Visit dok brewing company, Bottler and fermenting silo's
fig 936B, photo, Visit dok brewing company, hopper and water boiler
fig 936C, photo, Visit dok brewing company, Storage tank warm water
fig 936D, photo, Visit dok brewing company, Heat exchanger
fig 934A, Analyse Nachtergaele models
fig 934B, Analyse Nachtergaele models
fig 934C, Analyse Nachtergaele models
fig 934D, Analyse Nachtergaele models
fig 932A, model, Final design Model 1/100
fig 932B, model, Final design Model 1/100
fig 932C, model, Final design Model 1/100
fig 932D, model, Final design Model 1/100
fig 929A, Design details
fig 927A, Vertical farming
fig 927B, Vertical farming
fig 924A, Design facades
fig 923A, Design Sections
fig 922A, Design isometrie
fig 921A, EL Beton A0 analyse
fig 920A, Design model 1/50
fig 919A, EL Beton – model 1/20
fig 918A, Design model 1/100
fig 918B, Design model 1/100
fig 918C, Design model 1/100
fig 917A, industrial buildings, grafted onto rammed earth wall with common functions
fig 917B, industrial buildings, grafted onto rammed earth wall with common functions
fig 917C, industrial buildings, grafted onto rammed earth wall with common functions
fig 917D, industrial buildings, grafted onto rammed earth wall with common functions
fig 915A, Analyse EL beton – Foto’s Maquette
fig 915B, Analyse EL beton – Foto’s Maquette
fig 915C, Analyse EL beton – Foto’s Maquette
fig 915D, Analyse EL beton – Foto’s Maquette
fig 913A, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 913B, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 913C, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 911A, primary structure maquette
fig 911B, photo, primary structure maquette
fig 911C, photo, primary structure maquette
fig 911D, photo, primary structure maquette
fig 910A, Analyse Picobello Roeselare
fig 910B, Analyse Picobello Roeselare
fig 909A, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 909B, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 909C, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 909D, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 908A, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 908B, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 908C, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 908D, LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS
fig 865A, THE ANALYSIS, Oostmalle Delften
fig 865B, THE ANALYSIS, Oostmalle Delften
fig 865C, drawing, THE ANALYSIS, Oostmalle Delften
fig 865D, THE ANALYSIS, Oostmalle Delften
fig 864A, Circular Stacking ; RUFF
fig 863A, Circular Stacking ; Stacked roof detail
fig 861A, Circular Stacking ; 1/100 model
fig 861B, Circular Stacking ; 1/100 model
fig 861C, Circular Stacking ; 1/100 model
fig 861D, Circular Stacking ; 1/100 model
fig 857A, Analyse
fig 857B, model, Analyse
fig 857C, Analyse
fig 856A, Final Jury Brecht De Roose & Wannes De Brouwer
fig 856B, Final Jury Brecht De Roose & Wannes De Brouwer, SONY DSC
fig 856C, Final Jury Brecht De Roose & Wannes De Brouwer
fig 856D, photo, Final Jury Brecht De Roose & Wannes De Brouwer
fig 854A, POCO LOCO FACTORY
fig 850A, Structure analysis Erfoeddepot Trezoor, Kortrijk
fig 844A, drawing, analysis, storage for granulates, Willemen Infra, Brecht De Roose & Wannes De Brouwer
fig 844B, drawing, analysis, storage for granulates, Willemen Infra, Brecht De Roose & Wannes De Brouwer
fig 844C, analysis, storage for granulates, Willemen Infra, Brecht De Roose & Wannes De Brouwer
fig 844D, analysis, storage for granulates, Willemen Infra, Brecht De Roose & Wannes De Brouwer
fig 838A, Becher Price
fig 837A, BSF-Connection
fig 836A, drawing, Facq building, concrete detail with BSF-connection
fig 835A, drawing, Facq building, primary & secondary structure
fig 834A, model, Facq building model section, roller bridge
fig 833A, drawing, section detail structure
fig 832A, model, foto maquette
fig 831A, photo, BERND AND HILLA BECHER FACQ
fig 830A, drawing, ISO_Facq
fig 828A, Analyse EL beton – total overvieuw
fig 827A, Facade Pattyn Factory
fig 827B, Facade Pattyn Factory
fig 826A, New Added Structure Pattyn Factory
fig 825A, Structural Plan Pattyn Factory
fig 824A, Structure Pattyn Factory
fig 823A, photo, Visit Building Nachtergaele, back facade, Steel, old and new, renovation
fig 823B, photo, Visit Building Nachtergaele, Canopy, conncection, structure, wood, steel, detail
fig 823C, photo, Visit Building Nachtergaele, Montage, original plans
fig 823D, photo, Visit Building Nachtergaele, Facade, floor, conncetion, 3D, lost form, steel, concrete
fig 820A, SUPERSTUDIO Un catalogo di ville 1968-1970, Villa Suburbana A6
fig 818A, axo, STORAGE FOR GRANULATES, NEXT TO CONCRETE PLANT
fig 817A, Willemen Infra Asfaltcentrale Gent
fig 817B, Willemen Infra Asfaltcentrale Gent
fig 816A, photo, Loods Soubry, Roeselare – Ruff
fig 811A, Detail betonnen loods Ieper
fig 811B, Detail betonnen loods Ieper
fig 809A, V-Profiles used in the ceiling (lost formwork), V-Profile 1978
fig 808A, Ruff Collage | Admisol, Toonzaal + woning | Luc Van Landuyt | 1978
fig 800A, Granulate Storage Shed, Axo
fig 799A, analysis facade
fig 798A, Facade, office vs storage, Kleimoer, Office vs Storage
fig 793A, Detail foto’s – ELbeton
fig 792A, EL Beton – Structuur plan
fig 789A, Detail foto hoekprofiel – Lake Short Drive – Mies VDR
fig 788A, Detail – Neue National Galerie – Mies VDR
fig 787A, Mies van der Rohe – Farnsworth House – Hoekdetail
fig 786A, Isometrie – Lange & Esthers Houses – Mies VDR
fig 785A, Mies van der Rohe – Crown Hall – Isometrie
fig 784A, Mies van der Rohe – Kruiskolom
fig 783A, Mies van der Rohe – Farnsworth House
fig 782A, Detail – Lake Short Drive – Mies VDR
fig 780A, drawing, Eames Case Study House 8, Axo deciphering the different constuctive elements inside the Eames House.
fig 779A, Eames Case Study House 8, build sketch from Eames' Movie: House - after 5 years of living in it.
fig 778A, photo, Eames Case Study House 8, Interior steel Truss, aesthetics of prefab
fig 777A, photo, Eames Case Study House 8
fig 776A, photo, Eames case study house 8, Eames case study house No.8, exterior
fig 776B, photo, Eames case study house 8, Eames case study house No. 8, Bare steel frame
fig 774A, The Cube
fig 772A, Peter Behrens, AEG Turbinefabriek Berlijn (1909)
fig 771A, Peter Behrens, AEG Turbinefabriek Berlijn (1909)
fig 770A, Peter Behrens, AEG Turbinefabriek Berlijn (1909)
fig 769A, Peter Behrens, AEG Turbinefabriek Berlijn (1909)
fig 767A, Teatro del Mondo, Aldo Rossi
fig 759A, Ghent expo
fig 745A, STADSPARK VYNCKIER/ DE SCHIJF
fig 745B, STADSPARK VYNCKIER/ DE SCHIJF
fig 745C, STADSPARK VYNCKIER/ DE SCHIJF
fig 745D, STADSPARK VYNCKIER/ DE SCHIJF
fig 744A, STADSPARK VYNCKIER/ DE SCHIJF
fig 743A, STADSPARK VYNCKIER/ DE SCHIJF
fig 743B, STADSPARK VYNCKIER/ DE SCHIJF
fig 743C, STADSPARK VYNCKIER/ DE SCHIJF
fig 742A, STADSPARK VYNCKIER/ DE SCHIJF
fig 742B, STADSPARK VYNCKIER/ DE SCHIJF
fig 742C, STADSPARK VYNCKIER/ DE SCHIJF
fig 742D, STADSPARK VYNCKIER/ DE SCHIJF
fig 741A, drawing, STADSPARK VYNCKIER/ DE SCHIJF
fig 741B, STADSPARK VYNCKIER/ DE SCHIJF
fig 741C, STADSPARK VYNCKIER/ DE SCHIJF
fig 741D, STADSPARK VYNCKIER/ DE SCHIJF
fig 727A, Vynckier Saw Shedroof
fig 727B, Vynckier Saw Shedroof
fig 727C, Vynckier Saw Shedroof
fig 726A, stil leven de werf
fig 726B, stil leven de werf
fig 726C, stil leven de werf
fig 726D, stil leven de werf
fig 723A, Vynckier Site Saw-tooth roof
fig 723B, Vynckier Site Saw-tooth roof
fig 723C, Vynckier Site Saw-tooth roof
fig 723D, Vynckier Site Saw-tooth roof
fig 717A, Vynckier Circle Building
fig 717B, Vynckier Circle Building
fig 717C, Vynckier Circle Building
fig 717D, Vynckier Circle Building
fig 716A, axo existing structure
fig 713A, structure proposition
fig 713B, structure proposition
fig 713C, structure proposition
fig 703A, De Nieuwe Vynckier – Incubator – Passerel
fig 702A, De Nieuwe Vynckier – Incubator – Model
fig 701A, De Nieuwe Vynckier – Incubator – Section
fig 700A, De Nieuwe Vynckier – Incubator – Concept
fig 699A, Facades
fig 699B, Facades
fig 697A, 1 UNIT
fig 697B, 1 UNIT
fig 695A, Plan / section Manchester
fig 695B, Plan / section Manchester
fig 695C, Plan / section Manchester
fig 693A, Axonometry of fragment CONNECTING GRID
fig 693B, Axonometry of fragment CONNECTING GRID
fig 692A, Behind the scenes
fig 692B, Behind the scenes
fig 691A, 3RROR cad to jpg
fig 689A, Modelshots CONNECTING GRID
fig 689B, Modelshots CONNECTING GRID
fig 689C, model, Modelshots CONNECTING GRID
fig 689D, Modelshots CONNECTING GRID
fig 690A, Modelshots CONNECTING GRID
fig 690B, Modelshots CONNECTING GRID
fig 690C, Modelshots CONNECTING GRID
fig 690D, Modelshots CONNECTING GRID
fig 688A, Model Manchester
fig 688B, Model Manchester
fig 688C, Model Manchester
fig 688D, Model Manchester
fig 687A, research existing structure
fig 686A, floorplan
fig 686B, floorplan
fig 686C, floorplan
fig 685A, facades
fig 685B, facades
fig 685C, facades
fig 685D, facades
fig 684A, ingrepen op aanwezige context
fig 684B, ingrepen op aanwezige context
fig 683A, section
fig 683B, section
fig 683C, section
fig 682A, Maquette Masterplan
fig 680A, model
fig 680B, model
fig 680C, model
fig 680D, model
fig 677A, Axonometrie primaire structuur
fig 677B, Axonometrie primaire structuur
fig 676A, model, Dwarse snede woning
fig 675A, research existing structure
fig 675B, research existing structure
fig 675C, research existing structure
fig 675D, research existing structure
fig 674A, drawing, Langse snede
fig 673A, fragment model
fig 673B, fragment model
fig 673C, fragment model
fig 672A, drawing, Dwarse snede
fig 671A, model, Schijf x Manchester
fig 671B, Schijf x Manchester
fig 671C, Schijf x Manchester
fig 671D, Schijf x Manchester
fig 669A, Aanzicht westgevel
fig 668A, Structuur Manchester 2
fig 666A, Site section Terminal
fig 665A, Plan 1 terminal
fig 664A, Maquette Terminal
fig 664B, Maquette Terminal
fig 664C, Maquette Terminal
fig 664D, Maquette Terminal
fig 663A, OMA
fig 663B, OMA
fig 663C, OMA
fig 663D, OMA
fig 662A, Markthal
fig 662B, model, Markthal
fig 662C, drawing, Markthal
fig 662D, model, Markthal
fig 657A, photo, shed structure
fig 656A, Parochiezaal
fig 656B, Parochiezaal
fig 655A, Steel Frame Box
fig 654A, accordeon raam detail
fig 652A, drawing parochiezaal
fig 651A, Circle Building section
fig 650A, Building shed structure new addition
fig 649A, Building shed structure axonometric
fig 648A, Building with shed structure
fig 647A, New Shed structure
fig 647B, New Shed structure
fig 646A, BOX ON STEEL
fig 640A, Maquette
fig 640B, Maquette
fig 639A, Staal-beton kolom
fig 639B, Staal-beton kolom
fig 635A, Shed structure with new volume
fig 635B, Shed structure with new volume
fig 634A, shed structure
fig 634B, shed structure
fig 630A, OFFICE – RTS Building
fig 630B, OFFICE – RTS Building
fig 629A, drawing, SECTION VYNCKIER
fig 625A, model, De Schijf
fig 625B, model, De Schijf
fig 620A, Structuur Schijf
fig 619A, drawing, Vynckier
fig 619B, drawing, Vynckier
fig 619C, drawing, Vynckier
fig 619D, drawing, Vynckier
fig 615A, werfbezoek
fig 614A, werfbezoek
fig 613A, Model of masterplan CONNECTING GRID 1.0
fig 612A, drawing, Section connection Manchester and CONNECTING GRID 1.0
fig 582A, Proposal Facade Vynckier site
fig 567A, photo, Vynckier, Vynckier_Productiehal
fig 565A, Vynckier oude luchtfoto
fig 555A, Vynckier
fig 555B, Vynckier
fig 554A, Combination industry and living, Biestebroek quay – Plusoffice Architects & Collectif WRKSHP
fig 554B, Combination industry and living, Biestebroek quay – Plusoffice Architects & Collectif WRKSHP
fig 554C, Combination industry and living, Biestebroek quay – Plusoffice Architects & Collectif WRKSHP
fig 553A, Section Store Shed
fig 548A, Parkeergebouw Ledeberg, Nieuw Parkeergebouw Ledeberg
fig 545A, Manchester building – structure
fig 545B, Manchester building – structure
fig 543A, Constructie detail werfbezoek
fig 542A, Aansluiting staalframebouw
fig 538A, ECAM – Agwa Architects
fig 538B, ECAM – Agwa Architects
fig 537A, ECAM – Agwa Architects
fig 537B, ECAM – Agwa Architects
fig 533A, drawing, Magney House – Glenn Murcutt – section
fig 533B, drawing, Magney House – Glenn Murcutt – section
fig 532A, The Smithsons’ New Brutalism
fig 532B, The Smithsons’ New Brutalism
fig 531A, Schets, demonteerbare structuur, Jean Prouvé
fig 530A, Werf, Temporary school of Villejuif, Jean Prouvé
fig 529A, photo, Vynckier 1981-94
fig 529B, photo, Vynckier 1981-94
fig 523A, Photo during construction – Healey Guest House – ‘Cocoon House’
fig 519A, The Smithsons’ New Brutalism
fig 517A, Marika-Alderton House – Glenn Murcutt
fig 508A, model, DAUWSTRAAT MODEL
fig 508B, DAUWSTRAAT MODEL
fig 508C, DAUWSTRAAT MODEL
fig 508D, DAUWSTRAAT MODEL
fig 507A, Final maquette
fig 507B, Final maquette
fig 507C, photo, Final maquette
fig 506A, drawing, PICARDSTRAAT DETAILSECTION
fig 505A, drawing, DAUWSTRAAT DETAILSECTION
fig 501A, Section A110
fig 500A, Section A110
fig 495A, A110 – 2M wide cohousing
fig 487A, Work in progress – Dauwstraat, Processed with VSCO with preset
fig 480A, Werkmaquettes concept DAUWSTRAAT/PICARDSTRAAT, Processed with VSCO with preset
fig 480B, Werkmaquettes concept DAUWSTRAAT/PICARDSTRAAT, Processed with VSCO with preset
fig 475A, Wachtstaven
fig 461A, Structure, Libelco
fig 461B, Structure, Libelco
fig 455A, depotdesign
fig 454A, George&Gilbert
fig 437A, model, WTC remodel – puzzle
fig 437B, model, WTC remodel – puzzle
fig 437C, model, WTC remodel – puzzle
fig 437D, model, WTC remodel – puzzle
fig 436A, model, WTC remodel – final presentation
fig 436B, model, WTC remodel – final presentation
fig 436C, model, WTC remodel – final presentation
fig 436D, model, WTC remodel – final presentation
fig 434A, MAQUETTE_WTC_ONTWERP
fig 434B, MAQUETTE_WTC_ONTWERP
fig 434C, MAQUETTE_WTC_ONTWERP
fig 434D, MAQUETTE_WTC_ONTWERP
fig 433A, finaal model
fig 433B, finaal model
fig 433C, finaal model
fig 432A, FINAL MODEL – JURY
fig 432B, FINAL MODEL – JURY
fig 432C, FINAL MODEL – JURY
fig 432D, FINAL MODEL – JURY
fig 431A, CATHEDRALE COMMUNALE_JURY
fig 431B, CATHEDRALE COMMUNALE_JURY
fig 431C, CATHEDRALE COMMUNALE_JURY
fig 431D, CATHEDRALE COMMUNALE_JURY
fig 428A, drawing, WTC remodel – section and facades
fig 428B, drawing, WTC remodel – section and facades
fig 428C, drawing, WTC remodel – section and facades
fig 428D, WTC remodel – section and facades
fig 427A, WTC remodel – a tower can have a lot of different plans
fig 427B, WTC remodel – a tower can have a lot of different plans
fig 427C, WTC remodel – a tower can have a lot of different plans
fig 427D, WTC remodel – a tower can have a lot of different plans
fig 426A, FINAL Model WTC
fig 426B, FINAL Model WTC
fig 426C, FINAL Model WTC
fig 425A, first test extra facade
fig 424A, northern quarter voyeurism, An MQ-9 Reaper and MQ-1 Predator sit on display in brand new Hangar three at Holloman Air Force Base, N.M.
fig 424B, northern quarter voyeurism
fig 423A, Early plan social triplex
fig 422A, Distinction in program
fig 422B, Distinction in program
fig 421A, drawing, pt.2
fig 421B, drawing, pt.2
fig 421C, drawing, pt.2
fig 420A, reference
fig 420B, reference
fig 420C, reference, construction
fig 413A, Final design detail
fig 413B, Final design detail
fig 409A, drawing, Detail
fig 407A, drawing, open apartment
fig 406A, drawing, Facade
fig 405A, drawing, SECTION_BREWERY_AA’
fig 404A, drawing, DETAIL_SILO
fig 403A, model, Cathedrale Communale 1/200
fig 403B, model, Cathedrale Communale 1/200
fig 403C, model, Cathedrale Communale 1/200
fig 403D, model, Cathedrale Communale 1/200
fig 402A, drawing, Drawing of buildup wintergarden
fig 401A, model, CATHEDRALE COMMUNALE_DETAIL
fig 401B, model, CATHEDRALE COMMUNALE_DETAIL
fig 400A, drawing, Connection to the floor
fig 399A, drawing, New vs old structure, steel vs concrete
fig 398A, Brewery visit
fig 398B, Brewery visit
fig 397A, drawing, Isometrie gevel
fig 396A, drawing, Final plans
fig 395A, model, Small 1/200 scale model
fig 394A, model, Final scale model
fig 393A, model, Cathedrale Communale
fig 393B, model, Cathedrale Communale
fig 393C, model, Cathedrale Communale
fig 393D, model, Cathedrale Communale
fig 390A, Is It a Niemeyer?
fig 390B, Is It a Niemeyer?
fig 389A, CATHEDRALE COMMUNALE_PERSPECTIVE
fig 388A, CATHEDRALE COMMUNALE_DETAILS
fig 387A, CATHEDRALE COMMUNALE_ISOMETRIC
fig 385A, CATHEDRALE COMMUNALE
fig 384A, CATHEDRALE COMMUNALE_SECTIONS
fig 384B, CATHEDRALE COMMUNALE_SECTIONS
fig 383A, CATHEDRALE COMMUNALE_PLANS
fig 382A, WTC EXISTING STRUCTURE
fig 381A, ANALYSIS WTC
fig 381B, ANALYSIS WTC
fig 377A, Wooden stairs in steel structure
fig 376A, Wooden box in steel structure
fig 375A, STRUCTUREMODEL_SERVICEFLATS_1
fig 375B, STRUCTUREMODEL_SERVICEFLATS_1
fig 373A, Cathedrale Communale
fig 372A, cathédrale communale work documents
fig 372B, cathédrale communale work documents
fig 369A, Section analysis of fermentation tank
fig 368A, Structural model WTC brewery
fig 368B, Structural model WTC brewery
fig 367A, Structural model WTC brewery
fig 367B, Structural model WTC brewery
fig 366A, Opwervendag Nemo link
fig 366B, Opwervendag Nemo link
fig 366C, Opwervendag Nemo link
fig 366D, Opwervendag Nemo link
fig 365A, Bochten testen
fig 365B, Bochten testen
fig 365C, Bochten testen
fig 364A, Axo volumes
fig 364B, Axo volumes
fig 363A, cathédrale communale work documents
fig 363B, cathédrale communale work documents
fig 362A, WTC 1 – model of mosque
fig 362B, WTC 1 – model of mosque
fig 360A, Structure between diving tank and WTC 2tower
fig 359A, Structure underneath diving tank
fig 358A, Detailing sketches
fig 353A, Vertical Garden WTC, “Hanging the stairs” Sketches
fig 352A, LOFTS With gardens in double skin facade
fig 350A, How To Become A Niemeyer
fig 349A, Scheme structures silo
fig 349B, Scheme structures silo
fig 348A, Scheme connections in steel
fig 347A, Scheme structures silo
fig 347B, Scheme structures silo
fig 343A, Open structure + circulation
fig 340A, Manitoba hydro place
fig 339A, Detail of 1 Bligh Street
fig 338A, Maquette 1/50
fig 336A, Werkmaquette
fig 333A, REFERENTIE_2
fig 328A, Werf station parking
fig 328B, Werf station parking, plan ondergrondse parking
fig 328C, Werf station parking, wapening om 4 bogen op aan te sluiten, door een fout is het beton te hoog gegoten waardoor alles terug is uitgekapt. Hierdoor komt de wapening in het beton bloot te liggen.
fig 328D, Werf station parking, beton voor de Kiss&Ride wordt gegoten.
fig 327A, WTC – model
fig 327B, WTC – model
fig 326A, WTC model progress week 8
fig 325A, work documents 20180417
fig 325B, work documents 20180417
fig 325C, work documents 20180417
fig 324A, werfbezoek
fig 324B, werfbezoek
fig 324C, werfbezoek
fig 323A, Werfbezoek
fig 323B, Werfbezoek
fig 323C, Werfbezoek
fig 323D, Werfbezoek
fig 320A, exploded toren
fig 319A, exploded sokkel
fig 318A, Axonometric WTC
fig 315A, Tetris Within A Tetris
fig 314A, Conceptual thinking
fig 313A, Experience the real stuff
fig 313B, Experience the real stuff
fig 313C, Experience the real stuff
fig 310A, Architecture Noordwijk
fig 310B, Architecture Noordwijk
fig 307A, STRUCTURE WTC
fig 307B, STRUCTURE WTC
fig 306A, Site Visit 2
fig 306B, Site Visit 2
fig 306C, Site Visit 2
fig 306D, Site Visit 2
fig 305A, Site Visit 1
fig 305B, Site Visit 1
fig 305C, Site Visit 1
fig 305D, Site Visit 1
fig 302A, WTC Sketch
fig 301A, WTC Plan/Section Studentdorms
fig 296A, WTC sections
fig 294A, Structure Niv +27 WTC
fig 292A, WTC NIV + 27
fig 291A, WTC I: Axo op 2 verdiepen
fig 289A, Louis Sullivan – The tall office building artistically considered
fig 284A, werfbezoek – kraan in liftschacht
fig 281A, werfbezoek – fout wapeningsstaal
fig 277A, Steel connections WTC +24
fig 277B, Steel connections WTC +24
fig 277C, Steel connections WTC +24
fig 277D, Steel connections WTC +24
fig 276A, Structure WTC 1 +3 & +24
fig 276B, Structure WTC 1 +3 & +24
fig 276C, Structure WTC 1 +3 & +24
fig 276D, Structure WTC 1 +3 & +24
fig 275A, Ceiling Infrastructure plan
fig 273A, References Prestige Towers
fig 272A, Zuidertoren
fig 272B, Zuidertoren
fig 272C, Zuidertoren
fig 271A, Citygroup Center
fig 271B, Citygroup Center
fig 271C, Citygroup Center
fig 270A, Willis Tower
fig 270B, Willis Tower
fig 269A, Shanghai Tower
fig 268A, Knights of Columbus
fig 268B, Knights of Columbus
fig 268C, Knights of Columbus
fig 267A, OCBC Bank
fig 265A, John Hancock Center
fig 265B, John Hancock Center
fig 265C, John Hancock Center
fig 265D, John Hancock Center
fig 264A, Manhattan project
fig 264B, Manhattan project
fig 264C, Manhattan project
fig 261A, drawing, WTC_subtraction, WTC_subtraction
fig 261B, drawing, WTC_subtraction, WTC_axonometry
fig 260A, REA new ramp
fig 259A, model detail
fig 258A, model WTC
fig 257A, WTC beams
fig 255A, WTC pillar dimensions
fig 254A, The ramp
fig 254B, The ramp
fig 254C, The ramp
fig 252A, Pillar Catalogue
fig 251A, DEEP PLAN construction detail 1, structural detail 1
fig 250A, working session
fig 249A, photo, working session
fig 248A, photo, exploring the deep plan
fig 247A, WTC pattern of the pillars
fig 246A, Axonometria
fig 244A, model, Maurício Muller and Jerónimo Bailat
fig 242A, axonometric alejandra and joao
fig 240A, drawing, axonometry Marta and Luciana
fig 237A, final axonometry
fig 226A, drawing, proces_27
fig 216A, drawing, proces_13
fig 212A, final isometric Axel and Luna
fig 209A, drawing, proces_10
fig 208A, drawing, proces_09
fig 201A, Floors sections
fig 197A, work in progress … axonometry
fig 192A, sketch
fig 186A, Model
fig 186B, Model
fig 186C, Model
fig 185A, DECORMAQUETTE
fig 184A, Design
fig 184B, Design
fig 184C, Design
fig 184D, Design
fig 183A, Structural Analysis
fig 183B, Structural Analysis
fig 183C, Structural Analysis
fig 183D, Structural Analysis
fig 182A, drawing, Masterplan final site gentbrugge
fig 182B, drawing, Masterplan final site gentbrugge, coworking
fig 182C, drawing, Masterplan final site gentbrugge
fig 182D, photo, Masterplan final site gentbrugge
fig 180A, model, Site de Porre – primary structure model, A
fig 179A, Primary & New
fig 175A, drawing, Project BOMA
fig 175B, drawing, Project BOMA
fig 175C, drawing, Project BOMA
fig 175D, drawing, Project BOMA
fig 174A, drawing, current structure analyse
fig 172A, drawing, Research new structures in combination with existing
fig 172B, drawing, Research new structures in combination with existing
fig 172C, drawing, Research new structures in combination with existing, acoustic solutions - new vs. existing (2)
fig 172D, drawing, Research new structures in combination with existing
fig 170A, photo, REFERENCES
fig 170B, REFERENCES
fig 170C, REFERENCES
fig 170D, REFERENCES
fig 168A, Tempory billboard on tempory structure
fig 167A, photo, WORK – tussen
fig 167B, WORK – tussen
fig 160A, PROCES – AFBREKEN VS OPBOUW
fig 160B, PROCES – AFBREKEN VS OPBOUW
fig 159A, drawing, Research Drawings about the existing structure in the ‘zonder-naamstraat site’
fig 159B, Research Drawings about the existing structure in the ‘zonder-naamstraat site’
fig 159C, drawing, Research Drawings about the existing structure in the ‘zonder-naamstraat site’
fig 159D, drawing, Research Drawings about the existing structure in the ‘zonder-naamstraat site’
fig 157A, model masterplan
fig 156A, photo, research structure, A
fig 155A, drawing, ISO
fig 153A, DRAWINGS
fig 153B, DRAWINGS
fig 153C, DRAWINGS
fig 153D, DRAWINGS
fig 154A, HAMAM – 17.04
fig 154B, HAMAM – 17.04
fig 151A, photo, Site ‘Huidevetterken’, L-profile column
fig 151B, photo, Site ‘Huidevetterken’, Steel detail
fig 150A, Composite steel columns
fig 149A, Sketches
fig 149B, Sketches
fig 147A, model, ‘HUIDEVETTERKEN’ werkmaquette
fig 147B, drawing, ‘HUIDEVETTERKEN’ werkmaquette, existing situation plan
fig 147C, model, ‘HUIDEVETTERKEN’ werkmaquette
fig 145A, STRUCTURAL DESIGN PRINCIPLES
fig 145B, STRUCTURAL DESIGN PRINCIPLES
fig 145C, STRUCTURAL DESIGN PRINCIPLES
fig 145D, STRUCTURAL DESIGN PRINCIPLES
fig 144A, structural options. Isolating a container outside
fig 144B, structural options. Isolating a container outside
fig 142A, Urban design
fig 142B, Urban design
fig 143A, structural color
fig 143B, structural color
fig 140A, model making in the sun
fig 140B, model making in the sun
fig 141A, Site visit Sint-Martens-Latem
fig 141B, Site visit Sint-Martens-Latem
fig 141C, Site visit Sint-Martens-Latem
fig 141D, Site visit Sint-Martens-Latem
fig 139A, DT
fig 139B, DT
fig 138A, Sint – Amandsberg site, Gent. Details
fig 136A, Sint – Amandsberg site, Gent. Detail Model, OLYMPUS DIGITAL CAMERA
fig 137A, model, photos models
fig 137B, photo, photos models
fig 137C, model, photos models
fig 137D, photos models
fig 135A, model, Final model
fig 133A, photo, Final urban model
fig 133B, Final urban model
fig 133C, model, Final urban model
fig 134A, model, Structure models
fig 130A, Example sites photos
fig 130B, Example sites photos
fig 130C, Example sites photos
fig 131A, Blekerijstraat site photos
fig 131B, Blekerijstraat site photos
fig 131C, Blekerijstraat site photos
fig 131D, Blekerijstraat site photos
fig 128A, drawing, Final drawings
fig 128B, model, Final drawings
fig 128C, drawing, Final drawings
fig 128D, drawing, Final drawings
fig 129A, Pictures site Nieuwevaart
fig 129B, Pictures site Nieuwevaart
fig 127A, model, Final
fig 127B, drawing, Final
fig 127C, drawing, Final
fig 125A, Site visit
fig 126A, URBAN FARM
fig 126B, URBAN FARM
fig 122A, Structure site Nieuwevaart Gent
fig 122B, Structure site Nieuwevaart Gent
fig 123A, New structures
fig 120A, Reference structure steel
fig 120B, Reference structure steel
fig 120C, Reference structure steel
fig 121A, Pictures Model
fig 121B, Pictures Model
fig 116A, drawing, Program, Freeing the site of cars by putting them in a tower of the same height as his modernistic neighbor.
fig 116B, photo, Program, Entering the city via the E17 viaduct
fig 116C, drawing, Program
fig 116D, photo, Program
fig 114A, drawing, Existing structure
fig 114B, drawing, Existing structure, Axo
fig 114C, drawing, Existing structure, Section
fig 114D, photo, Existing structure
fig 113A, drawing, Site Ijzerweglaan, City fabric
fig 113B, photo, Site Ijzerweglaan, Island cut off by the river Schelde and the E17 Viaduct
fig 113C, model, Site Ijzerweglaan
fig 113D, drawing, Site Ijzerweglaan, Different existing typologies
fig 112A, photo, Hans Chr. Hansen, Amager Koblingsstation, Facade detail
fig 112B, photo, Hans Chr. Hansen, Amager Koblingsstation
fig 112C, photo, Hans Chr. Hansen, Amager Koblingsstation
fig 111A, ComFlor® 51+
fig 111B, model, ComFlor® 51+
fig 111C, photo, ComFlor® 51+
fig 110A, drawing, Current structure analyse
fig 110B, drawing, Current structure analyse
fig 110C, Current structure analyse
fig 110D, Current structure analyse
fig 108A, photo, Gent Voorhaven PortService Warehouses, Large Warehouse facades
fig 108B, photo, Gent Voorhaven PortService Warehouses, small warehouse
fig 108C, photo, Gent Voorhaven PortService Warehouses, Bombed structure inside
fig 108D, photo, Gent Voorhaven PortService Warehouses, Bombed structure old warehouses
fig 105A, WASSERIJ DER VLAANDEREN
fig 105B, WASSERIJ DER VLAANDEREN
fig 105C, WASSERIJ DER VLAANDEREN
fig 105D, WASSERIJ DER VLAANDEREN
fig 106A, drawing, SITE
fig 106B, drawing, SITE
fig 107A, drawing, details in color
fig 107B, details in color
fig 107C, details in color
fig 107D, details in color
fig 102A, drawing, club house
fig 101A, WASSERIJ DER VLAANDEREN – ISO LOODS
fig 101B, WASSERIJ DER VLAANDEREN – ISO LOODS
fig 101C, WASSERIJ DER VLAANDEREN – ISO LOODS
fig 101D, drawing, WASSERIJ DER VLAANDEREN – ISO LOODS
fig 100A, Steel Prefab Structure, construction site
fig 100B, Steel Prefab Structure, steel components joint
fig 100C, Steel Prefab Structure, steel components ridge joint
fig 100D, Steel Prefab Structure, steel components joint
fig 98A, Quick steel
fig 99A, Basic Concrete Prefab Construction, construction site
fig 99B, Basic Concrete Prefab Construction, Connection in the center of a diagonal buttress
fig 99C, Basic Concrete Prefab Construction, Top connection of a diagonal buttress
fig 99D, Basic Concrete Prefab Construction, Floor connection of a diagonal buttress
fig 95A, Tube and Coupler Scaffolds
fig 95B, Tube and Coupler Scaffolds
fig 95C, Tube and Coupler Scaffolds
fig 95D, Tube and Coupler Scaffolds
fig 96A, mazda site koopvaardijlaan, Drawing of the interior structure on the exterior wall. Also the remnants of a connected wooden building that burned down in the 1970's is still visible in the drawing.
fig 96B, mazda site koopvaardijlaan, cast concrete column
fig 96C, mazda site koopvaardijlaan, View towards aisle on the side of the tracks.
fig 96D, mazda site koopvaardijlaan
fig 97A, drawing, SITE & BUILDING ANALYSIS, Exploded view from different construction segments
fig 97B, SITE & BUILDING ANALYSIS, Detailed plan from below and above the ground
fig 93A, TECHNICAL DETAILS, Technical detail on the guiding rails
fig 93B, TECHNICAL DETAILS, Technical detail on the connection between the steel structure & foundation
fig 94A, INDUSTRIAL CONSTRUCTION SITE, Prefab structure
fig 94B, INDUSTRIAL CONSTRUCTION SITE, Two truss crossing
fig 94C, INDUSTRIAL CONSTRUCTION SITE, Cross bracing of the structure
fig 90A, Connection of a steel beam to a concrete wall
fig 90B, Connection of a steel beam to a concrete wall
fig 91A, MODEL #1, Interior wooden structure
fig 91B, MODEL #1, Interior wooden structure
fig 92A, MODEL #2, Cross-section model of the gasholder
fig 92B, MODEL #2, Cross-section model of the gasholder
fig 92C, MODEL #2, Cross-section model of the gasholder
fig 88A, MODEL #4
fig 89A, photo, Study models
fig 89B, Study models
fig 89C, photo, Study models, Using the same logic to connect two pieces to find the right length
fig 84A, photo, Study models, Model 1/25
fig 84B, photo, Study models, Model 1/25
fig 84C, photo, Study models, Model 1/25
fig 85A, photo, Analysis of the site, structure, detail, 2D build-up of steel truss
fig 85B, photo, Analysis of the site, structure, detail, isometric
fig 85C, photo, Analysis of the site, structure, detail, isometric
fig 85D, photo, Analysis of the site, structure, detail, isometric
fig 86A, photo, Wittemolenstraat, Sint – Amandsberg, OLYMPUS DIGITAL CAMERA
fig 86B, Wittemolenstraat, Sint – Amandsberg, OLYMPUS DIGITAL CAMERA
fig 87A, Analysis structure De Porre, De Porre - floorplan
fig 87B, Analysis structure De Porre, De Porre - level +1
fig 87C, Analysis structure De Porre, Isometric view - surroundings
fig 87D, Analysis structure De Porre, Isometric view - structure
fig 81A, drawing, ANALYSE EXISTING STRUCTURES
fig 83A, drawing, SITE ANALYSE
fig 83B, drawing, SITE ANALYSE
fig 83C, drawing, SITE ANALYSE
fig 80A, drawing, Site analyse
fig 80B, drawing, Site analyse
fig 80C, drawing, Site analyse
fig 80D, drawing, Site analyse
fig 78A, Site Secondary structure, OLYMPUS DIGITAL CAMERA
fig 78B, Site Secondary structure, OLYMPUS DIGITAL CAMERA
fig 78C, Site Secondary structure, OLYMPUS DIGITAL CAMERA
fig 78D, Site Secondary structure, OLYMPUS DIGITAL CAMERA
fig 74A, model, MODEL – WASSERIJ DER VLAANDEREN, WASSERIJ DER VLAANDEREN
fig 75A, model, Construction details of a car dealers garage, Joint of a column, primary and secondary roof beams.
fig 75B, drawing, Construction details of a car dealers garage, Joint of a column, primary and secondary roof beams.
fig 75C, drawing, Construction details of a car dealers garage, Connection of the structure of the two halls.
fig 71A, photo, axonometric view on docks site
fig 72A, drawing, Structure of the big warehouse on docks site
fig 73A, drawing, Construction details of the warehouse on site
fig 73B, drawing, Construction details of the warehouse on site
fig 73C, drawing, Construction details of the warehouse on site
fig 70A, photo, Pictures Nonnemeersstraat, Ghent
fig 70B, photo, Pictures Nonnemeersstraat, Ghent
fig 69A, models
fig 68A, collage: walls around the field
fig 63A, Model tests
fig 64A, DOME – EPS + SPRAYED CONCRETE, DOME - EPS + SPRAYED CONCRETE
fig 64B, DOME – EPS + SPRAYED CONCRETE
fig 64C, DOME – EPS + SPRAYED CONCRETE
fig 64D, DOME – EPS + SPRAYED CONCRETE
fig 65A, test model: terraces &facade
fig 59A, PUNCHED/PUNCTURED BEAM
fig 59B, PUNCHED/PUNCTURED BEAM
fig 59C, PUNCHED/PUNCTURED BEAM
fig 60A, photo, SIMPLE CONSTRUCTION
fig 60B, SIMPLE CONSTRUCTION
fig 60C, SIMPLE CONSTRUCTION
fig 61A, roof on/between containers
fig 61B, roof on/between containers
fig 61C, roof on/between containers
fig 61D, roof on/between containers
fig 62A, container cut outs
fig 62B, container cut outs
fig 62C, container cut outs
fig 62D, container cut outs
fig 54A, HOLZER KOBLER ARCHITEKTUREN FRANKIE & JOHNNY STUDENT HOUSING PLÄNTERWALD
fig 54B, HOLZER KOBLER ARCHITEKTUREN FRANKIE & JOHNNY STUDENT HOUSING PLÄNTERWALD
fig 54C, HOLZER KOBLER ARCHITEKTUREN FRANKIE & JOHNNY STUDENT HOUSING PLÄNTERWALD
fig 54D, HOLZER KOBLER ARCHITEKTUREN FRANKIE & JOHNNY STUDENT HOUSING PLÄNTERWALD
fig 55A, section draft
fig 56A, sketches container : Stacking;Connection
fig 56B, sketches container : Stacking;Connection
fig 56C, sketches container : Stacking;Connection
fig 56D, sketches container : Stacking;Connection
fig 57A, Mid-Process model
fig 50A, drawing, OLD vs. NEW
fig 51A, photo, Project Nonnemeersstraat, Ghent
fig 51B, drawing, Project Nonnemeersstraat, Ghent
fig 51C, drawing, Project Nonnemeersstraat, Ghent
fig 51D, drawing, Project Nonnemeersstraat, Ghent
fig 52A, CONSTRUCTION SITE
fig 53A, visit construction site
fig 53B, visit construction site
fig 53C, visit construction site
fig 47A, drawing, Every Big Box has its structure
fig 47B, drawing, Every Big Box has its structure
fig 48A, model vs Spa reine
fig 45A, drawing, shipping container
fig 45B, drawing, shipping container
fig 45C, drawing, shipping container
fig 41A, drawing, Steel structure
fig 41B, drawing, Steel structure
fig 41C, drawing, Steel structure
fig 41D, drawing, Steel structure
fig 42A, photo, Renovation factory Kotrijk
fig 42B, photo, Renovation factory Kotrijk
fig 42C, photo, Renovation factory Kotrijk
fig 42D, photo, Renovation factory Kotrijk
fig 43A, photo, Hot Rivet, knooppunt staalstructuur
fig 44A, drawing, STEEL JOINT
fig 37A, drawing, corner of the sport fence
fig 40A, photo, Schuur Gentbrugge – Site
fig 40B, photo, Schuur Gentbrugge – Site
fig 40C, photo, Schuur Gentbrugge – Site
fig 40D, drawing, Schuur Gentbrugge – Site
fig 33A, photo, Factory “De Porre” – Gentbrugge, Factory Mill De Porre Gentbrugge - site
fig 33B, photo, Factory “De Porre” – Gentbrugge, Factory Mill De Porre - Primary structure
fig 33C, photo, Factory “De Porre” – Gentbrugge, Factory Mill De Porre Gentbrugge - Concrete ceiling
fig 33D, photo, Factory “De Porre” – Gentbrugge, Factory Mill De Porre - fragment
fig 24A, photo, Steel truss, center piece
fig 24B, photo, Steel truss, Beam and truss connection
fig 26A, photo, Lumat Site Gent
fig 26B, photo, Lumat Site Gent
fig 26C, photo, Lumat Site Gent
fig 27A, drawing, Types of steel trusses
fig 28A, photo, Industrial warehouse, connection between foundation and column
fig 28B, photo, Industrial warehouse, connection between column and beam
fig 28C, photo, Industrial warehouse
fig 28D, photo, Industrial warehouse, connection between beams
fig 30A, photo, Silos, tanks & holders, Bottom-up construction
fig 30B, photo, Silos, tanks & holders, Interior view
fig 30C, photo, Silos, tanks & holders, Assembling the topcover
fig 30D, photo, Silos, tanks & holders, Surreal image
fig 31A, photo, Silos, tanks & holders, Fully assembled
fig 31B, photo, Silos, tanks & holders, Positioning the different panels
fig 31C, photo, Silos, tanks & holders, Pre-asssembly of the different panels
fig 15A, photo, SILOS, TANKS & HOLDERS, Rotating the panels allows vertical forces to be guided down
fig 15B, drawing, SILOS, TANKS & HOLDERS, Basic dimensions of a cold rolled steel silo panel
fig 17A, photo, SITE VISIT °2, On top you can see the combination of the concrete columns with the steel trusses.
fig 17B, photo, SITE VISIT °2, Prefabricated concrete elements fits perfectly in each other.
fig 17C, photo, SITE VISIT °2, The holes in the beams are made to put ducts through them.
fig 17D, photo, SITE VISIT °2, Prefabricated concrete elements fits perfectly in each other.
fig 19A, photo, SUPPORTING FACADE STRUCTURE, steel supporting structure
fig 20A, drawing, stabilizing structural systems, different ways to stabilize structure
fig 21A, photo, Tram depot Marconi – site visit
fig 21B, photo, Tram depot Marconi – site visit
fig 21C, photo, Tram depot Marconi – site visit
fig 22A, photo, factory Gentbrugge – Site, wooden beam pattern
fig 22B, drawing, factory Gentbrugge – Site
fig 22C, drawing, factory Gentbrugge – Site
fig 22D, drawing, factory Gentbrugge – Site, masonry
fig 23A, photo, Poco Loco – Fully automatic warehouse, View from the street
fig 23B, photo, Poco Loco – Fully automatic warehouse, section build on the ground
fig 23C, photo, Poco Loco – Fully automatic warehouse, connection of 2 different sections
fig 23D, photo, Poco Loco – Fully automatic warehouse, reinforcement for windloads
fig 12A, photo, Industrial Structure
fig 12B, photo, Industrial Structure
fig 10A, drawing, CORRUGATED WEB BEAM, Production GLP Beam
fig 10B, photo, CORRUGATED WEB BEAM, Connection GLP to GLP
fig 10C, photo, CORRUGATED WEB BEAM, Connection GLP to column
fig 10D, photo, CORRUGATED WEB BEAM, Example project
fig 11A, photo, FC Muide
fig 11B, photo, FC Muide
fig 11C, photo, FC Muide
fig 9A, photo, Getting some help, Getting some help.
fig 8A, photo, FRAC, Dunkerque by Lacaton & Vasal, Frontal Facade, showing the old building and new 'copy' next to each other
fig 8B, photo, FRAC, Dunkerque by Lacaton & Vasal
fig 8C, photo, FRAC, Dunkerque by Lacaton & Vasal, The beautiful transparency of the skin invites the outside world in and ceases to be distant as an art institution might be. The shell does only what it is meant to do, protect its core from the outer elements. The glass and steel myth was reinterpreted and altered with a plastic and steel frame.
fig 8D, photo, FRAC, Dunkerque by Lacaton & Vasal, Steel connection between the old and new building.
fig 6A, drawing, Drawing connection of steel structure
fig 6B, drawing, Drawing connection of steel structure
fig 4A, photo, Hidden interior structure of the Tondelier sasholders, Interior of the Tondelier gasholders.
fig 4B, photo, Hidden interior structure of the Tondelier sasholders, Interior of the Tondelier gasholders.
fig 4C, photo, Hidden interior structure of the Tondelier sasholders, Interior of the Tondelier gasholders.
fig 4D, photo, Hidden interior structure of the Tondelier sasholders, Remaining structure Tondelier gasholder
fig 3A, drawing, Voorhaven Site, The column is constructed with leftovers from the world expo in Antwerp 1985
fig 3B, photo, Voorhaven Site
fig 3C, drawing, Voorhaven Site, how hot riveting is done.
fig 1A, drawing, STEEL JOINT
No posts selected…
fig 1011A photo, Model 1/500 -1/50 mobility hub, posted by Lucas Dhaen at 28.01.22 (filed under: concrete primary steel structure wood)
fig 1011B photo, Model 1/500 -1/50 mobility hub, posted by Lucas Dhaen at 28.01.22 (filed under: concrete primary steel structure wood)
fig 1011C photo, Model 1/500 -1/50 mobility hub, posted by Lucas Dhaen at 28.01.22 (filed under: concrete primary steel structure wood)
fig 1011D photo, Model 1/500 -1/50 mobility hub, posted by Lucas Dhaen at 28.01.22 (filed under: concrete primary steel structure wood)
fig 996A photo, End Presentation, Axonometric Drawing, posted by Imre Nyeste at 12.01.22 (filed under: bridge concrete model primary steel structure)
fig 994A Hangend gebouw onder viaduct, posted by Victor Vantomme at 12.01.22 (filed under: concrete steel structure)
fig 994B Hangend gebouw onder viaduct, posted by Victor Vantomme at 12.01.22 (filed under: concrete steel structure)
fig 994C Hangend gebouw onder viaduct, posted by Victor Vantomme at 12.01.22 (filed under: concrete steel structure)
fig 994D Hangend gebouw onder viaduct, posted by Victor Vantomme at 12.01.22 (filed under: concrete steel structure)
fig 993A Plan Walkway, posted by Victor Vantomme at 12.01.22 (filed under: steel structure)
fig 993B Plan Walkway, posted by Victor Vantomme at 12.01.22 (filed under: steel structure)
fig 993C Plan Walkway, posted by Victor Vantomme at 12.01.22 (filed under: steel structure)
fig 993D Plan Walkway, posted by Victor Vantomme at 12.01.22 (filed under: steel structure)
fig 980A photo, Site visit W6, posted by Lucas Dhaen at 21.11.21 (filed under: brick concrete steel)
fig 980B photo, Site visit W6, posted by Lucas Dhaen at 21.11.21 (filed under: brick concrete steel)
fig 980C photo, Site visit W6, posted by Lucas Dhaen at 21.11.21 (filed under: brick concrete steel)
fig 967A analyse maquette, posted by Corentin  Lefebvre at 18.06.21 (filed under: model steel)
fig 967B analyse maquette, posted by Corentin  Lefebvre at 18.06.21 (filed under: model steel)
fig 966A finaale maquette, posted by Corentin  Lefebvre at 18.06.21 (filed under: concrete model primary steel wood)
fig 966B finaale maquette, posted by Corentin  Lefebvre at 18.06.21 (filed under: concrete model primary steel wood)
fig 966C finaale maquette, posted by Corentin  Lefebvre at 18.06.21 (filed under: concrete model primary steel wood)
fig 964A interieur render voorontwerp, posted by Corentin  Lefebvre at 18.06.21 (filed under: concrete glass steel)
fig 947A Analyse, posted by Maxim Lannaux at 17.06.21 (filed under: concrete primary steel)
fig 947B Analyse, posted by Maxim Lannaux at 17.06.21 (filed under: concrete primary steel)
fig 947C Analyse, posted by Maxim Lannaux at 17.06.21 (filed under: concrete primary steel)
fig 947D Analyse, posted by Maxim Lannaux at 17.06.21 (filed under: concrete primary steel)
fig 945A Onderzoek industriebouw, posted by Maxim Lannaux at 17.06.21 (filed under: steel wood)
fig 945B Onderzoek industriebouw, posted by Maxim Lannaux at 17.06.21 (filed under: steel wood)
fig 945C Onderzoek industriebouw, posted by Maxim Lannaux at 17.06.21 (filed under: steel wood)
fig 943A Analyse Loods, posted by Lara  Grimmelprez at 16.06.21 (filed under: concrete steel)
fig 943B model, Analyse Loods, posted by Lara  Grimmelprez at 16.06.21 (filed under: concrete steel)
fig 943C drawing, Analyse Loods, posted by Lara  Grimmelprez at 16.06.21 (filed under: concrete steel)
fig 943D drawing, Analyse Loods, posted by Lara  Grimmelprez at 16.06.21 (filed under: concrete steel)
fig 942A Axometrie, posted by Frieke Stouthuysen at 11.06.21 (filed under: steel)
fig 939A photo, Picobello, posted by Nand Van Hooreweder at 10.06.21 (filed under: steel)
fig 938A Luminus, posted by Nand Van Hooreweder at 10.06.21 (filed under: steel)
fig 936A photo, Visit dok brewing company, posted by Enrico Pavone at 06.06.21 (filed under: brick steel)
fig 936B photo, Visit dok brewing company, posted by Enrico Pavone at 06.06.21 (filed under: brick steel)
fig 936C photo, Visit dok brewing company, posted by Enrico Pavone at 06.06.21 (filed under: brick steel)
fig 936D photo, Visit dok brewing company, posted by Enrico Pavone at 06.06.21 (filed under: brick steel)
fig 934A Analyse Nachtergaele models, posted by Enrico Pavone at 06.06.21 (filed under: concrete glass steel)
fig 934B Analyse Nachtergaele models, posted by Enrico Pavone at 06.06.21 (filed under: concrete glass steel)
fig 934C Analyse Nachtergaele models, posted by Enrico Pavone at 06.06.21 (filed under: concrete glass steel)
fig 934D Analyse Nachtergaele models, posted by Enrico Pavone at 06.06.21 (filed under: concrete glass steel)
fig 932A model, Final design Model 1/100, posted by Enrico Pavone at 06.06.21 (filed under: concrete glass model steel wood)
fig 932B model, Final design Model 1/100, posted by Enrico Pavone at 06.06.21 (filed under: concrete glass model steel wood)
fig 932C model, Final design Model 1/100, posted by Enrico Pavone at 06.06.21 (filed under: concrete glass model steel wood)
fig 932D model, Final design Model 1/100, posted by Enrico Pavone at 06.06.21 (filed under: concrete glass model steel wood)
fig 929A Design details, posted by thomas snoeck at 05.06.21 (filed under: concrete primary steel)
fig 927A Vertical farming, posted by Joline Yzewyn at 05.06.21 (filed under: concrete steel)
fig 927B Vertical farming, posted by Joline Yzewyn at 05.06.21 (filed under: concrete steel)
fig 924A Design facades, posted by Tycho  Maes at 03.06.21 (filed under: concrete steel)
fig 923A Design Sections, posted by Tycho  Maes at 03.06.21 (filed under: concrete steel)
fig 922A Design isometrie, posted by Tycho  Maes at 03.06.21 (filed under: concrete steel)
fig 921A EL Beton A0 analyse, posted by Tycho  Maes at 03.06.21 (filed under: concrete steel)
fig 920A Design model 1/50, posted by Tycho  Maes at 03.06.21 (filed under: concrete steel)
fig 919A EL Beton – model 1/20, posted by Tycho  Maes at 03.06.21 (filed under: concrete steel)
fig 918A Design model 1/100, posted by Tycho  Maes at 03.06.21 (filed under: concrete steel)
fig 918B Design model 1/100, posted by Tycho  Maes at 03.06.21 (filed under: concrete steel)
fig 918C Design model 1/100, posted by Tycho  Maes at 03.06.21 (filed under: concrete steel)
fig 917A industrial buildings, grafted onto rammed earth wall with common functions, posted by Lennert Verbrugge at 02.06.21 (filed under: concrete steel)
fig 917B industrial buildings, grafted onto rammed earth wall with common functions, posted by Lennert Verbrugge at 02.06.21 (filed under: concrete steel)
fig 917C industrial buildings, grafted onto rammed earth wall with common functions, posted by Lennert Verbrugge at 02.06.21 (filed under: concrete steel)
fig 917D industrial buildings, grafted onto rammed earth wall with common functions, posted by Lennert Verbrugge at 02.06.21 (filed under: concrete steel)
fig 915A Analyse EL beton – Foto’s Maquette, posted by thomas snoeck at 02.06.21 (filed under: concrete steel)
fig 915B Analyse EL beton – Foto’s Maquette, posted by thomas snoeck at 02.06.21 (filed under: concrete steel)
fig 915C Analyse EL beton – Foto’s Maquette, posted by thomas snoeck at 02.06.21 (filed under: concrete steel)
fig 915D Analyse EL beton – Foto’s Maquette, posted by thomas snoeck at 02.06.21 (filed under: concrete steel)
fig 913A LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 913B LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 913C LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 911A primary structure maquette, posted by Hélène Callewaert at 01.06.21 (filed under: concrete steel)
fig 911B photo, primary structure maquette, posted by Hélène Callewaert at 01.06.21 (filed under: concrete steel)
fig 911C photo, primary structure maquette, posted by Hélène Callewaert at 01.06.21 (filed under: concrete steel)
fig 911D photo, primary structure maquette, posted by Hélène Callewaert at 01.06.21 (filed under: concrete steel)
fig 910A Analyse Picobello Roeselare, posted by Joline Yzewyn at 01.06.21 (filed under: steel)
fig 910B Analyse Picobello Roeselare, posted by Joline Yzewyn at 01.06.21 (filed under: steel)
fig 909A LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 909B LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 909C LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 909D LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 908A LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 908B LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 908C LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 908D LOT48 Wiedauwkaai, MODULAR CONTAINER UNITS, posted by Michiel Van Hoenacker at 01.06.21 (filed under: concrete steel)
fig 865A THE ANALYSIS, Oostmalle Delften, posted by Ine Verhoeven at 29.05.21 (filed under: concrete steel)
fig 865B THE ANALYSIS, Oostmalle Delften, posted by Ine Verhoeven at 29.05.21 (filed under: concrete steel)
fig 865C drawing, THE ANALYSIS, Oostmalle Delften, posted by Ine Verhoeven at 29.05.21 (filed under: concrete steel)
fig 865D THE ANALYSIS, Oostmalle Delften, posted by Ine Verhoeven at 29.05.21 (filed under: concrete steel)
fig 864A Circular Stacking ; RUFF, posted by Evgeny Kupriyanov at 28.05.21 (filed under: concrete steel wood)
fig 863A Circular Stacking ; Stacked roof detail, posted by Evgeny Kupriyanov at 28.05.21 (filed under: concrete steel wood)
fig 861A Circular Stacking ; 1/100 model, posted by Evgeny Kupriyanov at 28.05.21 (filed under: concrete steel wood)
fig 861B Circular Stacking ; 1/100 model, posted by Evgeny Kupriyanov at 28.05.21 (filed under: concrete steel wood)
fig 861C Circular Stacking ; 1/100 model, posted by Evgeny Kupriyanov at 28.05.21 (filed under: concrete steel wood)
fig 861D Circular Stacking ; 1/100 model, posted by Evgeny Kupriyanov at 28.05.21 (filed under: concrete steel wood)
fig 857A Analyse, posted by Ine Beuten at 27.05.21 (filed under: steel)
fig 857B model, Analyse, posted by Ine Beuten at 27.05.21 (filed under: steel)
fig 857C Analyse, posted by Ine Beuten at 27.05.21 (filed under: steel)
fig 856A Final Jury Brecht De Roose & Wannes De Brouwer, posted by Brecht De Roose at 26.05.21 (filed under: brick concrete glass steel wood)
fig 856B Final Jury Brecht De Roose & Wannes De Brouwer, posted by Brecht De Roose at 26.05.21 (filed under: brick concrete glass steel wood)
fig 856C Final Jury Brecht De Roose & Wannes De Brouwer, posted by Brecht De Roose at 26.05.21 (filed under: brick concrete glass steel wood)
fig 856D photo, Final Jury Brecht De Roose & Wannes De Brouwer, posted by Brecht De Roose at 26.05.21 (filed under: brick concrete glass steel wood)
fig 854A POCO LOCO FACTORY, posted by Maarten  Luyckx at 21.04.21 (filed under: steel)
fig 850A Structure analysis Erfoeddepot Trezoor, Kortrijk, posted by Michiel Van Hoenacker at 21.04.21 (filed under: steel)
fig 844A drawing, analysis, storage for granulates, Willemen Infra, Brecht De Roose & Wannes De Brouwer, posted by Wannes De Brouwer at 01.04.21 (filed under: concrete steel)
fig 844B drawing, analysis, storage for granulates, Willemen Infra, Brecht De Roose & Wannes De Brouwer, posted by Wannes De Brouwer at 01.04.21 (filed under: concrete steel)
fig 844C analysis, storage for granulates, Willemen Infra, Brecht De Roose & Wannes De Brouwer, posted by Wannes De Brouwer at 01.04.21 (filed under: concrete steel)
fig 844D analysis, storage for granulates, Willemen Infra, Brecht De Roose & Wannes De Brouwer, posted by Wannes De Brouwer at 01.04.21 (filed under: concrete steel)
fig 838A Becher Price, posted by Tom Cauwels at 19.03.21 (filed under: brick concrete steel wood)
fig 837A BSF-Connection, posted by Tom Cauwels at 19.03.21 (filed under: concrete steel)
fig 836A drawing, Facq building, concrete detail with BSF-connection, posted by Tom Cauwels at 19.03.21 (filed under: concrete steel)
fig 835A drawing, Facq building, primary & secondary structure, posted by Tom Cauwels at 19.03.21 (filed under: concrete steel)
fig 834A model, Facq building model section, roller bridge, posted by Tom Cauwels at 19.03.21 (filed under: concrete steel)
fig 833A drawing, section detail structure, posted by Max Scheffer at 19.03.21 (filed under: concrete steel)
fig 832A model, foto maquette, posted by Max Scheffer at 19.03.21 (filed under: concrete steel)
fig 831A photo, BERND AND HILLA BECHER FACQ, posted by Max Scheffer at 19.03.21 (filed under: glass steel)
fig 830A drawing, ISO_Facq, posted by Max Scheffer at 19.03.21 (filed under: steel)
fig 828A Analyse EL beton – total overvieuw, posted by thomas snoeck at 17.03.21 (filed under: steel)
fig 827A Facade Pattyn Factory, posted by Pieter-Jan Van Steen at 16.03.21 (filed under: steel)
fig 827B Facade Pattyn Factory, posted by Pieter-Jan Van Steen at 16.03.21 (filed under: steel)
fig 826A New Added Structure Pattyn Factory, posted by Pieter-Jan Van Steen at 16.03.21 (filed under: steel)
fig 825A Structural Plan Pattyn Factory, posted by Pieter-Jan Van Steen at 16.03.21 (filed under: concrete steel)
fig 824A Structure Pattyn Factory, posted by Pieter-Jan Van Steen at 16.03.21 (filed under: steel)
fig 823A photo, Visit Building Nachtergaele, posted by Enrico Pavone at 16.03.21 (filed under: concrete steel wood)
fig 823B photo, Visit Building Nachtergaele, posted by Enrico Pavone at 16.03.21 (filed under: concrete steel wood)
fig 823C photo, Visit Building Nachtergaele, posted by Enrico Pavone at 16.03.21 (filed under: concrete steel wood)
fig 823D photo, Visit Building Nachtergaele, posted by Enrico Pavone at 16.03.21 (filed under: concrete steel wood)
fig 820A SUPERSTUDIO Un catalogo di ville 1968-1970, Villa Suburbana A6, posted by Ine Verhoeven at 16.03.21 (filed under: concrete glass steel)
fig 818A axo, STORAGE FOR GRANULATES, NEXT TO CONCRETE PLANT, posted by Wannes De Brouwer at 15.03.21 (filed under: concrete steel)
fig 817A Willemen Infra Asfaltcentrale Gent, posted by Brecht De Roose at 15.03.21 (filed under: concrete steel wood)
fig 817B Willemen Infra Asfaltcentrale Gent, posted by Brecht De Roose at 15.03.21 (filed under: concrete steel wood)
fig 816A photo, Loods Soubry, Roeselare – Ruff, posted by Lara  Grimmelprez at 13.03.21 (filed under: concrete steel)
fig 811A Detail betonnen loods Ieper, posted by Michiel Swerts at 10.03.21 (filed under: concrete steel)
fig 811B Detail betonnen loods Ieper, posted by Michiel Swerts at 10.03.21 (filed under: concrete steel)
fig 809A V-Profiles used in the ceiling (lost formwork), posted by David  Van Oostende at 10.03.21 (filed under: steel)
fig 808A Ruff Collage | Admisol, posted by David  Van Oostende at 10.03.21 (filed under: glass steel)
fig 800A Granulate Storage Shed, Axo, posted by Brecht De Roose at 03.03.21 (filed under: concrete steel)
fig 799A analysis facade, posted by Wannes De Brouwer at 03.03.21 (filed under: brick steel)
fig 798A Facade, office vs storage, Kleimoer, posted by Brecht De Roose at 03.03.21 (filed under: glass plastics steel)
fig 793A Detail foto’s – ELbeton, posted by thomas snoeck at 03.03.21 (filed under: concrete steel)
fig 792A EL Beton – Structuur plan, posted by Tycho  Maes at 03.03.21 (filed under: concrete steel)
fig 789A Detail foto hoekprofiel – Lake Short Drive – Mies VDR, posted by thomas snoeck at 03.03.21 (filed under: steel)
fig 788A Detail – Neue National Galerie – Mies VDR, posted by thomas snoeck at 03.03.21 (filed under: steel)
fig 787A Mies van der Rohe – Farnsworth House – Hoekdetail, posted by Tycho  Maes at 03.03.21 (filed under: steel)
fig 786A Isometrie – Lange & Esthers Houses – Mies VDR, posted by thomas snoeck at 03.03.21 (filed under: brick concrete steel)
fig 785A Mies van der Rohe – Crown Hall – Isometrie, posted by Tycho  Maes at 03.03.21 (filed under: steel)
fig 784A Mies van der Rohe – Kruiskolom, posted by Tycho  Maes at 03.03.21 (filed under: steel)
fig 783A Mies van der Rohe – Farnsworth House, posted by Tycho  Maes at 03.03.21 (filed under: steel)
fig 782A Detail – Lake Short Drive – Mies VDR, posted by thomas snoeck at 03.03.21 (filed under: concrete steel)
fig 780A drawing, Eames Case Study House 8, posted by David  Van Oostende at 02.03.21 (filed under: concrete glass steel)
fig 779A Eames Case Study House 8, posted by David  Van Oostende at 02.03.21 (filed under: concrete glass steel)
fig 778A photo, Eames Case Study House 8, posted by David  Van Oostende at 02.03.21 (filed under: steel)
fig 777A photo, Eames Case Study House 8, posted by David  Van Oostende at 02.03.21 (filed under: glass steel)
fig 776A photo, Eames case study house 8, posted by Enrico Pavone at 02.03.21 (filed under: glass steel)
fig 776B photo, Eames case study house 8, posted by Enrico Pavone at 02.03.21 (filed under: glass steel)
fig 774A The Cube, posted by Lennert Verbrugge at 02.03.21 (filed under: steel)
fig 772A Peter Behrens, AEG Turbinefabriek Berlijn (1909), posted by Pieter-Jan Van Steen at 02.03.21 (filed under: concrete glass steel)
fig 771A Peter Behrens, AEG Turbinefabriek Berlijn (1909), posted by Pieter-Jan Van Steen at 02.03.21 (filed under: concrete glass steel)
fig 770A Peter Behrens, AEG Turbinefabriek Berlijn (1909), posted by Pieter-Jan Van Steen at 02.03.21 (filed under: concrete glass steel)
fig 769A Peter Behrens, AEG Turbinefabriek Berlijn (1909), posted by Pieter-Jan Van Steen at 02.03.21 (filed under: glass steel)
fig 767A Teatro del Mondo, Aldo Rossi, posted by Michiel Van Hoenacker at 02.03.21 (filed under: steel wood)
fig 759A Ghent expo, posted by Corentin  Lefebvre at 02.03.21 (filed under: steel)
fig 745A STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 745B STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 745C STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 745D STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 744A STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 743A STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 743B STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 743C STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 742A STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 742B STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 742C STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 742D STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: brick concrete steel wood)
fig 741A drawing, STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: concrete steel wood)
fig 741B STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: concrete steel wood)
fig 741C STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: concrete steel wood)
fig 741D STADSPARK VYNCKIER/ DE SCHIJF, posted by Lara Winderickx at 27.05.20 (filed under: concrete steel wood)
fig 727A Vynckier Saw Shedroof, posted by Maurits Verstraete at 27.05.20 (filed under: brick concrete steel)
fig 727B Vynckier Saw Shedroof, posted by Maurits Verstraete at 27.05.20 (filed under: brick concrete steel)
fig 727C Vynckier Saw Shedroof, posted by Maurits Verstraete at 27.05.20 (filed under: brick concrete steel)
fig 726A stil leven de werf, posted by Cisse Vercauteren at 27.05.20 (filed under: concrete steel)
fig 726B stil leven de werf, posted by Cisse Vercauteren at 27.05.20 (filed under: concrete steel)
fig 726C stil leven de werf, posted by Cisse Vercauteren at 27.05.20 (filed under: concrete steel)
fig 726D stil leven de werf, posted by Cisse Vercauteren at 27.05.20 (filed under: concrete steel)
fig 723A Vynckier Site Saw-tooth roof, posted by Lode De Smet Van Damme at 27.05.20 (filed under: brick concrete glass plastics steel)
fig 723B Vynckier Site Saw-tooth roof, posted by Lode De Smet Van Damme at 27.05.20 (filed under: brick concrete glass plastics steel)
fig 723C Vynckier Site Saw-tooth roof, posted by Lode De Smet Van Damme at 27.05.20 (filed under: brick concrete glass plastics steel)
fig 723D Vynckier Site Saw-tooth roof, posted by Lode De Smet Van Damme at 27.05.20 (filed under: brick concrete glass plastics steel)
fig 717A Vynckier Circle Building, posted by Lode De Smet Van Damme at 27.05.20 (filed under: brick concrete glass steel wood)
fig 717B Vynckier Circle Building, posted by Lode De Smet Van Damme at 27.05.20 (filed under: brick concrete glass steel wood)
fig 717C Vynckier Circle Building, posted by Lode De Smet Van Damme at 27.05.20 (filed under: brick concrete glass steel wood)
fig 717D Vynckier Circle Building, posted by Lode De Smet Van Damme at 27.05.20 (filed under: brick concrete glass steel wood)
fig 716A axo existing structure, posted by Cisse Vercauteren at 27.05.20 (filed under: steel wood)
fig 713A structure proposition, posted by Cisse Vercauteren at 27.05.20 (filed under: concrete steel)
fig 713B structure proposition, posted by Cisse Vercauteren at 27.05.20 (filed under: concrete steel)
fig 713C structure proposition, posted by Cisse Vercauteren at 27.05.20 (filed under: concrete steel)
fig 703A De Nieuwe Vynckier – Incubator – Passerel, posted by Bert Van Wijnendaele at 27.05.20 (filed under: steel)
fig 702A De Nieuwe Vynckier – Incubator – Model, posted by Bert Van Wijnendaele at 27.05.20 (filed under: steel)
fig 701A De Nieuwe Vynckier – Incubator – Section, posted by Bert Van Wijnendaele at 27.05.20 (filed under: steel)
fig 700A De Nieuwe Vynckier – Incubator – Concept, posted by Bert Van Wijnendaele at 27.05.20 (filed under: steel)
fig 699A Facades, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 699B Facades, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 697A 1 UNIT, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 697B 1 UNIT, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 695A Plan / section Manchester, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 695B Plan / section Manchester, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 695C Plan / section Manchester, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 693A Axonometry of fragment CONNECTING GRID, posted by Aaron Vanacker at 26.05.20 (filed under: concrete steel)
fig 693B Axonometry of fragment CONNECTING GRID, posted by Aaron Vanacker at 26.05.20 (filed under: concrete steel)
fig 692A Behind the scenes, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 692B Behind the scenes, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 691A 3RROR cad to jpg, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 689A Modelshots CONNECTING GRID, posted by Nicolas Vanneste at 26.05.20 (filed under: concrete steel)
fig 689B Modelshots CONNECTING GRID, posted by Nicolas Vanneste at 26.05.20 (filed under: concrete steel)
fig 689C model, Modelshots CONNECTING GRID, posted by Nicolas Vanneste at 26.05.20 (filed under: concrete steel)
fig 689D Modelshots CONNECTING GRID, posted by Nicolas Vanneste at 26.05.20 (filed under: concrete steel)
fig 690A Modelshots CONNECTING GRID, posted by Aaron Vanacker at 26.05.20 (filed under: concrete steel)
fig 690B Modelshots CONNECTING GRID, posted by Aaron Vanacker at 26.05.20 (filed under: concrete steel)
fig 690C Modelshots CONNECTING GRID, posted by Aaron Vanacker at 26.05.20 (filed under: concrete steel)
fig 690D Modelshots CONNECTING GRID, posted by Aaron Vanacker at 26.05.20 (filed under: concrete steel)
fig 688A Model Manchester, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 688B Model Manchester, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 688C Model Manchester, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 688D Model Manchester, posted by Bram Degieter at 26.05.20 (filed under: steel)
fig 687A research existing structure, posted by Cisse Vercauteren at 26.05.20 (filed under: steel wood)
fig 686A floorplan, posted by Cisse Vercauteren at 26.05.20 (filed under: brick concrete steel)
fig 686B floorplan, posted by Cisse Vercauteren at 26.05.20 (filed under: brick concrete steel)
fig 686C floorplan, posted by Cisse Vercauteren at 26.05.20 (filed under: brick concrete steel)
fig 685A facades, posted by Cisse Vercauteren at 26.05.20 (filed under: brick concrete steel wood)
fig 685B facades, posted by Cisse Vercauteren at 26.05.20 (filed under: brick concrete steel wood)
fig 685C facades, posted by Cisse Vercauteren at 26.05.20 (filed under: brick concrete steel wood)
fig 685D facades, posted by Cisse Vercauteren at 26.05.20 (filed under: brick concrete steel wood)
fig 684A ingrepen op aanwezige context, posted by Cisse Vercauteren at 26.05.20 (filed under: steel wood)
fig 684B ingrepen op aanwezige context, posted by Cisse Vercauteren at 26.05.20 (filed under: steel wood)
fig 683A section, posted by Cisse Vercauteren at 26.05.20 (filed under: concrete steel wood)
fig 683B section, posted by Cisse Vercauteren at 26.05.20 (filed under: concrete steel wood)
fig 683C section, posted by Cisse Vercauteren at 26.05.20 (filed under: concrete steel wood)
fig 682A Maquette Masterplan, posted by Marie-lou Vermaerke at 26.05.20 (filed under: brick steel)
fig 680A model, posted by Cisse Vercauteren at 26.05.20 (filed under: concrete steel wood)
fig 680B model, posted by Cisse Vercauteren at 26.05.20 (filed under: concrete steel wood)
fig 680C model, posted by Cisse Vercauteren at 26.05.20 (filed under: concrete steel wood)
fig 680D model, posted by Cisse Vercauteren at 26.05.20 (filed under: concrete steel wood)
fig 677A Axonometrie primaire structuur, posted by Anouk Depaepe at 26.05.20 (filed under: concrete steel)
fig 677B Axonometrie primaire structuur, posted by Anouk Depaepe at 26.05.20 (filed under: concrete steel)
fig 676A model, Dwarse snede woning, posted by Anouk Depaepe at 26.05.20 (filed under: concrete steel)
fig 675A research existing structure, posted by Cisse Vercauteren at 26.05.20 (filed under: steel wood)
fig 675B research existing structure, posted by Cisse Vercauteren at 26.05.20 (filed under: steel wood)
fig 675C research existing structure, posted by Cisse Vercauteren at 26.05.20 (filed under: steel wood)
fig 675D research existing structure, posted by Cisse Vercauteren at 26.05.20 (filed under: steel wood)
fig 674A drawing, Langse snede, posted by Anouk Depaepe at 26.05.20 (filed under: brick concrete steel)
fig 673A fragment model, posted by Cisse Vercauteren at 26.05.20 (filed under: steel wood)
fig 673B fragment model, posted by Cisse Vercauteren at 26.05.20 (filed under: steel wood)
fig 673C fragment model, posted by Cisse Vercauteren at 26.05.20 (filed under: steel wood)
fig 672A drawing, Dwarse snede, posted by Anouk Depaepe at 26.05.20 (filed under: brick concrete steel)
fig 671A model, Schijf x Manchester, posted by Fien Dequeker at 26.05.20 (filed under: concrete steel)
fig 671B Schijf x Manchester, posted by Fien Dequeker at 26.05.20 (filed under: concrete steel)
fig 671C Schijf x Manchester, posted by Fien Dequeker at 26.05.20 (filed under: concrete steel)
fig 671D Schijf x Manchester, posted by Fien Dequeker at 26.05.20 (filed under: concrete steel)
fig 669A Aanzicht westgevel, posted by Anouk Depaepe at 26.05.20 (filed under: concrete steel)
fig 668A Structuur Manchester 2, posted by Anouk Depaepe at 26.05.20 (filed under: steel)
fig 666A Site section Terminal, posted by Marie-lou Vermaerke at 26.05.20 (filed under: brick steel)
fig 665A Plan 1 terminal, posted by Marie-lou Vermaerke at 26.05.20 (filed under: brick steel)
fig 664A Maquette Terminal, posted by Marie-lou Vermaerke at 26.05.20 (filed under: brick steel)
fig 664B Maquette Terminal, posted by Marie-lou Vermaerke at 26.05.20 (filed under: brick steel)
fig 664C Maquette Terminal, posted by Marie-lou Vermaerke at 26.05.20 (filed under: brick steel)
fig 664D Maquette Terminal, posted by Marie-lou Vermaerke at 26.05.20 (filed under: brick steel)
fig 663A OMA, posted by Dean Peeters at 26.05.20 (filed under: glass steel)
fig 663B OMA, posted by Dean Peeters at 26.05.20 (filed under: glass steel)
fig 663C OMA, posted by Dean Peeters at 26.05.20 (filed under: glass steel)
fig 663D OMA, posted by Dean Peeters at 26.05.20 (filed under: glass steel)
fig 662A Markthal, posted by Dean Peeters at 26.05.20 (filed under: steel wood)
fig 662B model, Markthal, posted by Dean Peeters at 26.05.20 (filed under: steel wood)
fig 662C drawing, Markthal, posted by Dean Peeters at 26.05.20 (filed under: steel wood)
fig 662D model, Markthal, posted by Dean Peeters at 26.05.20 (filed under: steel wood)
fig 657A photo, shed structure, posted by Maurits Verstraete at 14.05.20 (filed under: concrete plastics steel)
fig 656A Parochiezaal, posted by Maurits Verstraete at 14.05.20 (filed under: brick steel wood)
fig 656B Parochiezaal, posted by Maurits Verstraete at 14.05.20 (filed under: brick steel wood)
fig 655A Steel Frame Box, posted by Bert Van Wijnendaele at 13.05.20 (filed under: steel)
fig 654A accordeon raam detail, posted by Bert Van Wijnendaele at 13.05.20 (filed under: steel)
fig 652A drawing parochiezaal, posted by Maurits Verstraete at 11.05.20 (filed under: brick steel wood)
fig 651A Circle Building section, posted by Lode De Smet Van Damme at 06.05.20 (filed under: brick glass steel wood)
fig 650A Building shed structure new addition, posted by Lode De Smet Van Damme at 06.05.20 (filed under: brick glass steel)
fig 649A Building shed structure axonometric, posted by Lode De Smet Van Damme at 06.05.20 (filed under: brick glass steel)
fig 648A Building with shed structure, posted by Lode De Smet Van Damme at 06.05.20 (filed under: brick steel)
fig 647A New Shed structure, posted by Maurits Verstraete at 06.05.20 (filed under: concrete steel)
fig 647B New Shed structure, posted by Maurits Verstraete at 06.05.20 (filed under: concrete steel)
fig 646A BOX ON STEEL, posted by Bert Van Wijnendaele at 06.05.20 (filed under: steel wood)
fig 640A Maquette, posted by Marie-lou Vermaerke at 30.04.20 (filed under: brick steel)
fig 640B Maquette, posted by Marie-lou Vermaerke at 30.04.20 (filed under: brick steel)
fig 639A Staal-beton kolom, posted by Marie-lou Vermaerke at 30.04.20 (filed under: concrete steel)
fig 639B Staal-beton kolom, posted by Marie-lou Vermaerke at 30.04.20 (filed under: concrete steel)
fig 635A Shed structure with new volume, posted by Maurits Verstraete at 29.04.20 (filed under: concrete steel)
fig 635B Shed structure with new volume, posted by Maurits Verstraete at 29.04.20 (filed under: concrete steel)
fig 634A shed structure, posted by Maurits Verstraete at 29.04.20 (filed under: brick concrete steel)
fig 634B shed structure, posted by Maurits Verstraete at 29.04.20 (filed under: brick concrete steel)
fig 630A OFFICE – RTS Building, posted by Lara Winderickx at 28.04.20 (filed under: steel)
fig 630B OFFICE – RTS Building, posted by Lara Winderickx at 28.04.20 (filed under: steel)
fig 629A drawing, SECTION VYNCKIER, posted by Lara Winderickx at 28.04.20 (filed under: steel)
fig 625A model, De Schijf, posted by Fien Dequeker at 22.04.20 (filed under: steel)
fig 625B model, De Schijf, posted by Fien Dequeker at 22.04.20 (filed under: steel)
fig 620A Structuur Schijf, posted by Anouk Depaepe at 22.04.20 (filed under: steel)
fig 619A drawing, Vynckier, posted by Wout Vandermeersch at 21.04.20 (filed under: steel)
fig 619B drawing, Vynckier, posted by Wout Vandermeersch at 21.04.20 (filed under: steel)
fig 619C drawing, Vynckier, posted by Wout Vandermeersch at 21.04.20 (filed under: steel)
fig 619D drawing, Vynckier, posted by Wout Vandermeersch at 21.04.20 (filed under: steel)
fig 615A werfbezoek, posted by Arne Ilsbroekx at 01.04.20 (filed under: concrete steel)
fig 614A werfbezoek, posted by Arne Ilsbroekx at 01.04.20 (filed under: concrete steel)
fig 613A Model of masterplan CONNECTING GRID 1.0, posted by Aaron Vanacker at 01.04.20 (filed under: steel)
fig 612A drawing, Section connection Manchester and CONNECTING GRID 1.0, posted by Aaron Vanacker at 01.04.20 (filed under: steel)
fig 582A Proposal Facade Vynckier site, posted by Lode De Smet Van Damme at 18.03.20 (filed under: steel)
fig 567A photo, Vynckier, posted by Jolien De Smet at 11.03.20 (filed under: steel)
fig 565A Vynckier oude luchtfoto, posted by Eva Roose at 09.03.20 (filed under: brick concrete steel)
fig 555A Vynckier, posted by Wout Vandermeersch at 05.03.20 (filed under: steel)
fig 555B Vynckier, posted by Wout Vandermeersch at 05.03.20 (filed under: steel)
fig 554A Combination industry and living, Biestebroek quay – Plusoffice Architects & Collectif WRKSHP, posted by linde huygens at 05.03.20 (filed under: concrete glass steel)
fig 554B Combination industry and living, Biestebroek quay – Plusoffice Architects & Collectif WRKSHP, posted by linde huygens at 05.03.20 (filed under: concrete glass steel)
fig 554C Combination industry and living, Biestebroek quay – Plusoffice Architects & Collectif WRKSHP, posted by linde huygens at 05.03.20 (filed under: concrete glass steel)
fig 553A Section Store Shed, posted by Anouk Depaepe at 01.03.20 (filed under: brick steel)
fig 548A Parkeergebouw Ledeberg, posted by Bert Van Wijnendaele at 27.02.20 (filed under: concrete steel)
fig 545A Manchester building – structure, posted by Bram Degieter at 27.02.20 (filed under: brick steel)
fig 545B Manchester building – structure, posted by Bram Degieter at 27.02.20 (filed under: brick steel)
fig 543A Constructie detail werfbezoek, posted by Lene Lemmens at 27.02.20 (filed under: concrete steel)
fig 542A Aansluiting staalframebouw, posted by Lene Lemmens at 27.02.20 (filed under: steel)
fig 538A ECAM – Agwa Architects, posted by Lara Winderickx at 26.02.20 (filed under: steel)
fig 538B ECAM – Agwa Architects, posted by Lara Winderickx at 26.02.20 (filed under: steel)
fig 537A ECAM – Agwa Architects, posted by Lara Winderickx at 26.02.20 (filed under: steel)
fig 537B ECAM – Agwa Architects, posted by Lara Winderickx at 26.02.20 (filed under: steel)
fig 533A drawing, Magney House – Glenn Murcutt – section, posted by Cisse Vercauteren at 22.02.20 (filed under: glass steel)
fig 533B drawing, Magney House – Glenn Murcutt – section, posted by Cisse Vercauteren at 22.02.20 (filed under: glass steel)
fig 532A The Smithsons’ New Brutalism, posted by linde huygens at 21.02.20 (filed under: brick concrete glass steel)
fig 532B The Smithsons’ New Brutalism, posted by linde huygens at 21.02.20 (filed under: brick concrete glass steel)
fig 531A Schets, demonteerbare structuur, Jean Prouvé, posted by Isra Cekaj at 20.02.20 (filed under: steel)
fig 530A Werf, Temporary school of Villejuif, Jean Prouvé, posted by Isra Cekaj at 20.02.20 (filed under: steel)
fig 529A photo, Vynckier 1981-94, posted by Eva Roose at 20.02.20 (filed under: steel wood)
fig 529B photo, Vynckier 1981-94, posted by Eva Roose at 20.02.20 (filed under: steel wood)
fig 523A Photo during construction – Healey Guest House – ‘Cocoon House’, posted by Aaron Vanacker at 19.02.20 (filed under: steel wood)
fig 519A The Smithsons’ New Brutalism, posted by linde huygens at 19.02.20 (filed under: brick glass steel)
fig 517A Marika-Alderton House – Glenn Murcutt, posted by Bram Degieter at 19.02.20 (filed under: steel wood)
fig 508A model, DAUWSTRAAT MODEL, posted by Inge Habils at 04.06.19 (filed under: concrete glass steel)
fig 508B DAUWSTRAAT MODEL, posted by Inge Habils at 04.06.19 (filed under: concrete glass steel)
fig 508C DAUWSTRAAT MODEL, posted by Inge Habils at 04.06.19 (filed under: concrete glass steel)
fig 508D DAUWSTRAAT MODEL, posted by Inge Habils at 04.06.19 (filed under: concrete glass steel)
fig 507A Final maquette, posted by Gala Kenis at 04.06.19 (filed under: concrete steel)
fig 507B Final maquette, posted by Gala Kenis at 04.06.19 (filed under: concrete steel)
fig 507C photo, Final maquette, posted by Gala Kenis at 04.06.19 (filed under: concrete steel)
fig 506A drawing, PICARDSTRAAT DETAILSECTION, posted by Inge Habils at 04.06.19 (filed under: concrete glass steel)
fig 505A drawing, DAUWSTRAAT DETAILSECTION, posted by Inge Habils at 04.06.19 (filed under: concrete glass steel)
fig 501A Section A110, posted by Lucas Gemoets at 03.06.19 (filed under: steel)
fig 500A Section A110, posted by Lucas Gemoets at 03.06.19 (filed under: steel)
fig 495A A110 – 2M wide cohousing, posted by Cedric Du Bois at 21.05.19 (filed under: steel)
fig 487A Work in progress – Dauwstraat, posted by Inge Habils at 05.05.19 (filed under: concrete steel)
fig 480A Werkmaquettes concept DAUWSTRAAT/PICARDSTRAAT, posted by Inge Habils at 29.04.19 (filed under: concrete steel)
fig 480B Werkmaquettes concept DAUWSTRAAT/PICARDSTRAAT, posted by Inge Habils at 29.04.19 (filed under: concrete steel)
fig 475A Wachtstaven, posted by Enver Peeters at 26.03.19 (filed under: concrete steel)
fig 461A Structure, Libelco, posted by Kadir Altun at 04.03.19 (filed under: steel)
fig 461B Structure, Libelco, posted by Kadir Altun at 04.03.19 (filed under: steel)
fig 455A depotdesign, posted by Seyfettin Gokmen at 28.02.19 (filed under: steel)
fig 454A George&Gilbert, posted by Inge Habils at 27.02.19 (filed under: brick concrete glass steel)
fig 437A model, WTC remodel – puzzle, posted by Karel Verdonck at 27.06.18 (filed under: concrete glass steel)
fig 437B model, WTC remodel – puzzle, posted by Karel Verdonck at 27.06.18 (filed under: concrete glass steel)
fig 437C model, WTC remodel – puzzle, posted by Karel Verdonck at 27.06.18 (filed under: concrete glass steel)
fig 437D model, WTC remodel – puzzle, posted by Karel Verdonck at 27.06.18 (filed under: concrete glass steel)
fig 436A model, WTC remodel – final presentation, posted by Karel Verdonck at 27.06.18 (filed under: concrete glass steel)
fig 436B model, WTC remodel – final presentation, posted by Karel Verdonck at 27.06.18 (filed under: concrete glass steel)
fig 436C model, WTC remodel – final presentation, posted by Karel Verdonck at 27.06.18 (filed under: concrete glass steel)
fig 436D model, WTC remodel – final presentation, posted by Karel Verdonck at 27.06.18 (filed under: concrete glass steel)
fig 434A MAQUETTE_WTC_ONTWERP, posted by Louis Lories at 15.06.18 (filed under: steel)
fig 434B MAQUETTE_WTC_ONTWERP, posted by Louis Lories at 15.06.18 (filed under: steel)
fig 434C MAQUETTE_WTC_ONTWERP, posted by Louis Lories at 15.06.18 (filed under: steel)
fig 434D MAQUETTE_WTC_ONTWERP, posted by Louis Lories at 15.06.18 (filed under: steel)
fig 433A finaal model, posted by Carolien Vereecken at 13.06.18 (filed under: concrete steel)
fig 433B finaal model, posted by Carolien Vereecken at 13.06.18 (filed under: concrete steel)
fig 433C finaal model, posted by Carolien Vereecken at 13.06.18 (filed under: concrete steel)
fig 432A FINAL MODEL – JURY, posted by Laura Vanderdonckt at 11.06.18 (filed under: brick concrete glass plastics steel wood)
fig 432B FINAL MODEL – JURY, posted by Laura Vanderdonckt at 11.06.18 (filed under: brick concrete glass plastics steel wood)
fig 432C FINAL MODEL – JURY, posted by Laura Vanderdonckt at 11.06.18 (filed under: brick concrete glass plastics steel wood)
fig 432D FINAL MODEL – JURY, posted by Laura Vanderdonckt at 11.06.18 (filed under: brick concrete glass plastics steel wood)
fig 431A CATHEDRALE COMMUNALE_JURY, posted by Sophie Leemans at 11.06.18 (filed under: concrete steel)
fig 431B CATHEDRALE COMMUNALE_JURY, posted by Sophie Leemans at 11.06.18 (filed under: concrete steel)
fig 431C CATHEDRALE COMMUNALE_JURY, posted by Sophie Leemans at 11.06.18 (filed under: concrete steel)
fig 431D CATHEDRALE COMMUNALE_JURY, posted by Sophie Leemans at 11.06.18 (filed under: concrete steel)
fig 428A drawing, WTC remodel – section and facades, posted by Karel Verdonck at 07.06.18 (filed under: concrete glass steel wood)
fig 428B drawing, WTC remodel – section and facades, posted by Karel Verdonck at 07.06.18 (filed under: concrete glass steel wood)
fig 428C drawing, WTC remodel – section and facades, posted by Karel Verdonck at 07.06.18 (filed under: concrete glass steel wood)
fig 428D WTC remodel – section and facades, posted by Karel Verdonck at 07.06.18 (filed under: concrete glass steel wood)
fig 427A WTC remodel – a tower can have a lot of different plans, posted by Karel Verdonck at 07.06.18 (filed under: concrete glass steel wood)
fig 427B WTC remodel – a tower can have a lot of different plans, posted by Karel Verdonck at 07.06.18 (filed under: concrete glass steel wood)
fig 427C WTC remodel – a tower can have a lot of different plans, posted by Karel Verdonck at 07.06.18 (filed under: concrete glass steel wood)
fig 427D WTC remodel – a tower can have a lot of different plans, posted by Karel Verdonck at 07.06.18 (filed under: concrete glass steel wood)
fig 426A FINAL Model WTC, posted by Laura Vanderdonckt at 04.06.18 (filed under: brick concrete glass plastics steel wood)
fig 426B FINAL Model WTC, posted by Laura Vanderdonckt at 04.06.18 (filed under: brick concrete glass plastics steel wood)
fig 426C FINAL Model WTC, posted by Laura Vanderdonckt at 04.06.18 (filed under: brick concrete glass plastics steel wood)
fig 425A first test extra facade, posted by Lauren Vangilbergen at 04.06.18 (filed under: plastics steel)
fig 424A northern quarter voyeurism, posted by Alexandre Basile at 04.06.18 (filed under: steel)
fig 424B northern quarter voyeurism, posted by Alexandre Basile at 04.06.18 (filed under: steel)
fig 423A Early plan social triplex, posted by Lauren Vangilbergen at 04.06.18 (filed under: concrete glass plastics steel)
fig 422A Distinction in program, posted by Lauren Vangilbergen at 04.06.18 (filed under: plastics steel)
fig 422B Distinction in program, posted by Lauren Vangilbergen at 04.06.18 (filed under: plastics steel)
fig 421A drawing, pt.2, posted by Alexandre Basile at 04.06.18 (filed under: glass steel)
fig 421B drawing, pt.2, posted by Alexandre Basile at 04.06.18 (filed under: glass steel)
fig 421C drawing, pt.2, posted by Alexandre Basile at 04.06.18 (filed under: glass steel)
fig 420A reference, posted by Lauren Vangilbergen at 04.06.18 (filed under: plastics steel)
fig 420B reference, posted by Lauren Vangilbergen at 04.06.18 (filed under: plastics steel)
fig 420C reference, posted by Lauren Vangilbergen at 04.06.18 (filed under: plastics steel)
fig 413A Final design detail, posted by Mattias Vandenbempt at 04.06.18 (filed under: concrete steel wood)
fig 413B Final design detail, posted by Mattias Vandenbempt at 04.06.18 (filed under: concrete steel wood)
fig 409A drawing, Detail, posted by Eva Van Craenenbroeck at 03.06.18 (filed under: glass steel)
fig 407A drawing, open apartment, posted by Eva Van Craenenbroeck at 03.06.18 (filed under: glass steel)
fig 406A drawing, Facade, posted by Eva Van Craenenbroeck at 03.06.18 (filed under: glass steel)
fig 405A drawing, SECTION_BREWERY_AA’, posted by Lien De Jonghe at 03.06.18 (filed under: concrete glass steel wood)
fig 404A drawing, DETAIL_SILO, posted by Lien De Jonghe at 03.06.18 (filed under: concrete glass steel wood)
fig 403A model, Cathedrale Communale 1/200, posted by leilaviaene at 03.06.18 (filed under: concrete steel wood)
fig 403B model, Cathedrale Communale 1/200, posted by leilaviaene at 03.06.18 (filed under: concrete steel wood)
fig 403C model, Cathedrale Communale 1/200, posted by leilaviaene at 03.06.18 (filed under: concrete steel wood)
fig 403D model, Cathedrale Communale 1/200, posted by leilaviaene at 03.06.18 (filed under: concrete steel wood)
fig 402A drawing, Drawing of buildup wintergarden, posted by Sven de Smet at 03.06.18 (filed under: steel wood)
fig 401A model, CATHEDRALE COMMUNALE_DETAIL, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 401B model, CATHEDRALE COMMUNALE_DETAIL, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 400A drawing, Connection to the floor, posted by Sven de Smet at 03.06.18 (filed under: steel)
fig 399A drawing, New vs old structure, steel vs concrete, posted by Sven de Smet at 03.06.18 (filed under: concrete steel)
fig 398A Brewery visit, posted by Sven de Smet at 03.06.18 (filed under: steel)
fig 398B Brewery visit, posted by Sven de Smet at 03.06.18 (filed under: steel)
fig 397A drawing, Isometrie gevel, posted by Carolien Vereecken at 03.06.18 (filed under: glass steel)
fig 396A drawing, Final plans, posted by Sven de Smet at 03.06.18 (filed under: concrete steel)
fig 395A model, Small 1/200 scale model, posted by Sven de Smet at 03.06.18 (filed under: concrete steel)
fig 394A model, Final scale model, posted by Sven de Smet at 03.06.18 (filed under: concrete glass steel wood)
fig 393A model, Cathedrale Communale, posted by leilaviaene at 03.06.18 (filed under: concrete steel wood)
fig 393B model, Cathedrale Communale, posted by leilaviaene at 03.06.18 (filed under: concrete steel wood)
fig 393C model, Cathedrale Communale, posted by leilaviaene at 03.06.18 (filed under: concrete steel wood)
fig 393D model, Cathedrale Communale, posted by leilaviaene at 03.06.18 (filed under: concrete steel wood)
fig 390A Is It a Niemeyer?, posted by Laura Vanderdonckt at 03.06.18 (filed under: concrete steel wood)
fig 390B Is It a Niemeyer?, posted by Laura Vanderdonckt at 03.06.18 (filed under: concrete steel wood)
fig 389A CATHEDRALE COMMUNALE_PERSPECTIVE, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 388A CATHEDRALE COMMUNALE_DETAILS, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 387A CATHEDRALE COMMUNALE_ISOMETRIC, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 385A CATHEDRALE COMMUNALE, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 384A CATHEDRALE COMMUNALE_SECTIONS, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 384B CATHEDRALE COMMUNALE_SECTIONS, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 383A CATHEDRALE COMMUNALE_PLANS, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 382A WTC EXISTING STRUCTURE, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 381A ANALYSIS WTC, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 381B ANALYSIS WTC, posted by Sophie Leemans at 03.06.18 (filed under: concrete steel)
fig 377A Wooden stairs in steel structure, posted by Mattias Vandenbempt at 27.05.18 (filed under: steel wood)
fig 376A Wooden box in steel structure, posted by Mattias Vandenbempt at 27.05.18 (filed under: steel wood)
fig 375A STRUCTUREMODEL_SERVICEFLATS_1, posted by Maxim Lefebvre at 21.05.18 (filed under: concrete steel wood)
fig 375B STRUCTUREMODEL_SERVICEFLATS_1, posted by Maxim Lefebvre at 21.05.18 (filed under: concrete steel wood)
fig 373A Cathedrale Communale, posted by leilaviaene at 13.05.18 (filed under: concrete glass steel)
fig 372A cathédrale communale work documents, posted by Sophie Leemans at 12.05.18 (filed under: concrete steel)
fig 372B cathédrale communale work documents, posted by Sophie Leemans at 12.05.18 (filed under: concrete steel)
fig 369A Section analysis of fermentation tank, posted by Sven de Smet at 10.05.18 (filed under: steel)
fig 368A Structural model WTC brewery, posted by Sven de Smet at 10.05.18 (filed under: concrete steel)
fig 368B Structural model WTC brewery, posted by Sven de Smet at 10.05.18 (filed under: concrete steel)
fig 367A Structural model WTC brewery, posted by Sven de Smet at 10.05.18 (filed under: steel)
fig 367B Structural model WTC brewery, posted by Sven de Smet at 10.05.18 (filed under: steel)
fig 366A Opwervendag Nemo link, posted by Sven de Smet at 10.05.18 (filed under: steel)
fig 366B Opwervendag Nemo link, posted by Sven de Smet at 10.05.18 (filed under: steel)
fig 366C Opwervendag Nemo link, posted by Sven de Smet at 10.05.18 (filed under: steel)
fig 366D Opwervendag Nemo link, posted by Sven de Smet at 10.05.18 (filed under: steel)
fig 365A Bochten testen, posted by Laura Vanderdonckt at 08.05.18 (filed under: concrete steel)
fig 365B Bochten testen, posted by Laura Vanderdonckt at 08.05.18 (filed under: concrete steel)
fig 365C Bochten testen, posted by Laura Vanderdonckt at 08.05.18 (filed under: concrete steel)
fig 364A Axo volumes, posted by Carolien Vereecken at 07.05.18 (filed under: concrete steel)
fig 364B Axo volumes, posted by Carolien Vereecken at 07.05.18 (filed under: concrete steel)
fig 363A cathédrale communale work documents, posted by Sophie Leemans at 05.05.18 (filed under: concrete steel)
fig 363B cathédrale communale work documents, posted by Sophie Leemans at 05.05.18 (filed under: concrete steel)
fig 362A WTC 1 – model of mosque, posted by Karel Verdonck at 02.05.18 (filed under: concrete glass steel)
fig 362B WTC 1 – model of mosque, posted by Karel Verdonck at 02.05.18 (filed under: concrete glass steel)
fig 360A Structure between diving tank and WTC 2tower, posted by Mattias Vandenbempt at 01.05.18 (filed under: steel)
fig 359A Structure underneath diving tank, posted by Mattias Vandenbempt at 01.05.18 (filed under: steel)
fig 358A Detailing sketches, posted by Mattias Vandenbempt at 01.05.18 (filed under: steel)
fig 353A Vertical Garden WTC, “Hanging the stairs” Sketches, posted by Mattias Vandenbempt at 25.04.18 (filed under: steel)
fig 352A LOFTS With gardens in double skin facade, posted by Mattias Vandenbempt at 25.04.18 (filed under: steel wood)
fig 350A How To Become A Niemeyer, posted by Laura Vanderdonckt at 23.04.18 (filed under: glass steel)
fig 349A Scheme structures silo, posted by Lien De Jonghe at 23.04.18 (filed under: steel)
fig 349B Scheme structures silo, posted by Lien De Jonghe at 23.04.18 (filed under: steel)
fig 348A Scheme connections in steel, posted by Lien De Jonghe at 23.04.18 (filed under: steel)
fig 347A Scheme structures silo, posted by Lien De Jonghe at 23.04.18 (filed under: steel)
fig 347B Scheme structures silo, posted by Lien De Jonghe at 23.04.18 (filed under: steel)
fig 343A Open structure + circulation, posted by Sven de Smet at 23.04.18 (filed under: steel)
fig 340A Manitoba hydro place, posted by Sven de Smet at 23.04.18 (filed under: concrete glass steel)
fig 339A Detail of 1 Bligh Street, posted by Sven de Smet at 23.04.18 (filed under: glass steel)
fig 338A Maquette 1/50, posted by Carolien Vereecken at 23.04.18 (filed under: concrete glass steel)
fig 336A Werkmaquette, posted by Carolien Vereecken at 23.04.18 (filed under: concrete steel)
fig 333A REFERENTIE_2, posted by Louis Lories at 22.04.18 (filed under: steel)
fig 328A Werf station parking, posted by LindsayPrat at 17.04.18 (filed under: concrete steel)
fig 328B Werf station parking, posted by LindsayPrat at 17.04.18 (filed under: concrete steel)
fig 328C Werf station parking, posted by LindsayPrat at 17.04.18 (filed under: concrete steel)
fig 328D Werf station parking, posted by LindsayPrat at 17.04.18 (filed under: concrete steel)
fig 327A WTC – model, posted by Karel Verdonck at 17.04.18 (filed under: concrete steel)
fig 327B WTC – model, posted by Karel Verdonck at 17.04.18 (filed under: concrete steel)
fig 326A WTC model progress week 8, posted by Sophie Leemans at 17.04.18 (filed under: concrete steel wood)
fig 325A work documents 20180417, posted by Sophie Leemans at 17.04.18 (filed under: concrete steel)
fig 325B work documents 20180417, posted by Sophie Leemans at 17.04.18 (filed under: concrete steel)
fig 325C work documents 20180417, posted by Sophie Leemans at 17.04.18 (filed under: concrete steel)
fig 324A werfbezoek, posted by Dorien Moonen at 17.04.18 (filed under: concrete steel)
fig 324B werfbezoek, posted by Dorien Moonen at 17.04.18 (filed under: concrete steel)
fig 324C werfbezoek, posted by Dorien Moonen at 17.04.18 (filed under: concrete steel)
fig 323A Werfbezoek, posted by Eva Van Craenenbroeck at 16.04.18 (filed under: concrete steel)
fig 323B Werfbezoek, posted by Eva Van Craenenbroeck at 16.04.18 (filed under: concrete steel)
fig 323C Werfbezoek, posted by Eva Van Craenenbroeck at 16.04.18 (filed under: concrete steel)
fig 323D Werfbezoek, posted by Eva Van Craenenbroeck at 16.04.18 (filed under: concrete steel)
fig 320A exploded toren, posted by Eva Van Craenenbroeck at 16.04.18 (filed under: steel)
fig 319A exploded sokkel, posted by Eva Van Craenenbroeck at 16.04.18 (filed under: concrete steel)
fig 318A Axonometric WTC, posted by Maxim Lefebvre at 16.04.18 (filed under: concrete glass steel)
fig 315A Tetris Within A Tetris, posted by Laura Vanderdonckt at 16.04.18 (filed under: concrete glass steel)
fig 314A Conceptual thinking, posted by Femke Van Doorsselaere at 16.04.18 (filed under: steel)
fig 313A Experience the real stuff, posted by Femke Van Doorsselaere at 16.04.18 (filed under: concrete steel)
fig 313B Experience the real stuff, posted by Femke Van Doorsselaere at 16.04.18 (filed under: concrete steel)
fig 313C Experience the real stuff, posted by Femke Van Doorsselaere at 16.04.18 (filed under: concrete steel)
fig 310A Architecture Noordwijk, posted by Femke Van Doorsselaere at 16.04.18 (filed under: glass steel)
fig 310B Architecture Noordwijk, posted by Femke Van Doorsselaere at 16.04.18 (filed under: glass steel)
fig 307A STRUCTURE WTC, posted by Mattias Vandenbempt at 15.04.18 (filed under: steel)
fig 307B STRUCTURE WTC, posted by Mattias Vandenbempt at 15.04.18 (filed under: steel)
fig 306A Site Visit 2, posted by Mattias Vandenbempt at 15.04.18 (filed under: steel)
fig 306B Site Visit 2, posted by Mattias Vandenbempt at 15.04.18 (filed under: steel)
fig 306C Site Visit 2, posted by Mattias Vandenbempt at 15.04.18 (filed under: steel)
fig 306D Site Visit 2, posted by Mattias Vandenbempt at 15.04.18 (filed under: steel)
fig 305A Site Visit 1, posted by Mattias Vandenbempt at 15.04.18 (filed under: steel)
fig 305B Site Visit 1, posted by Mattias Vandenbempt at 15.04.18 (filed under: steel)
fig 305C Site Visit 1, posted by Mattias Vandenbempt at 15.04.18 (filed under: steel)
fig 305D Site Visit 1, posted by Mattias Vandenbempt at 15.04.18 (filed under: steel)
fig 302A WTC Sketch, posted by Laura Vanderdonckt at 24.03.18 (filed under: concrete steel)
fig 301A WTC Plan/Section Studentdorms, posted by Laura Vanderdonckt at 24.03.18 (filed under: concrete steel)
fig 296A WTC sections, posted by Sophie Leemans at 19.03.18 (filed under: concrete steel)
fig 294A Structure Niv +27 WTC, posted by charlie lanckvrind at 19.03.18 (filed under: steel)
fig 292A WTC NIV + 27, posted by charlie lanckvrind at 19.03.18 (filed under: steel)
fig 291A WTC I: Axo op 2 verdiepen, posted by Eva Van Craenenbroeck at 19.03.18 (filed under: concrete steel)
fig 289A Louis Sullivan – The tall office building artistically considered, posted by Sophie Leemans at 14.03.18 (filed under: brick steel)
fig 284A werfbezoek – kraan in liftschacht, posted by Sophie Leemans at 13.03.18 (filed under: concrete steel)
fig 281A werfbezoek – fout wapeningsstaal, posted by Sophie Leemans at 13.03.18 (filed under: concrete steel)
fig 277A Steel connections WTC +24, posted by Mattias Vandenbempt at 10.03.18 (filed under: steel)
fig 277B Steel connections WTC +24, posted by Mattias Vandenbempt at 10.03.18 (filed under: steel)
fig 277C Steel connections WTC +24, posted by Mattias Vandenbempt at 10.03.18 (filed under: steel)
fig 277D Steel connections WTC +24, posted by Mattias Vandenbempt at 10.03.18 (filed under: steel)
fig 276A Structure WTC 1 +3 & +24, posted by Mattias Vandenbempt at 10.03.18 (filed under: steel)
fig 276B Structure WTC 1 +3 & +24, posted by Mattias Vandenbempt at 10.03.18 (filed under: steel)
fig 276C Structure WTC 1 +3 & +24, posted by Mattias Vandenbempt at 10.03.18 (filed under: steel)
fig 276D Structure WTC 1 +3 & +24, posted by Mattias Vandenbempt at 10.03.18 (filed under: steel)
fig 275A Ceiling Infrastructure plan, posted by Maxim Lefebvre at 07.03.18 (filed under: concrete glass steel)
fig 273A References Prestige Towers, posted by Laura Vanderdonckt at 06.03.18 (filed under: steel)
fig 272A Zuidertoren, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 272B Zuidertoren, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 272C Zuidertoren, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 271A Citygroup Center, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 271B Citygroup Center, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 271C Citygroup Center, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 270A Willis Tower, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 270B Willis Tower, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 269A Shanghai Tower, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 268A Knights of Columbus, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 268B Knights of Columbus, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 268C Knights of Columbus, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 267A OCBC Bank, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 265A John Hancock Center, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 265B John Hancock Center, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 265C John Hancock Center, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 265D John Hancock Center, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 264A Manhattan project, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 264B Manhattan project, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 264C Manhattan project, posted by Mattias Vandenbempt at 06.03.18 (filed under: steel)
fig 261A drawing, WTC_subtraction, posted by Timotheus de Beir at 06.01.18 (filed under: concrete steel)
fig 261B drawing, WTC_subtraction, posted by Timotheus de Beir at 06.01.18 (filed under: concrete steel)
fig 260A REA new ramp, posted by Caterina Gentini at 21.09.17 (filed under: concrete steel)
fig 259A model detail, posted by Floris De Bruyn at 01.09.17 (filed under: glass steel)
fig 258A model WTC, posted by Floris De Bruyn at 01.09.17 (filed under: glass steel)
fig 257A WTC beams, posted by Fabian Villanyi at 01.09.17 (filed under: concrete steel)
fig 255A WTC pillar dimensions, posted by Fabian Villanyi at 01.09.17 (filed under: concrete steel)
fig 254A The ramp, posted by Caterina Gentini at 31.08.17 (filed under: concrete steel)
fig 254B The ramp, posted by Caterina Gentini at 31.08.17 (filed under: concrete steel)
fig 254C The ramp, posted by Caterina Gentini at 31.08.17 (filed under: concrete steel)
fig 252A Pillar Catalogue, posted by Elena Calafati at 30.08.17 (filed under: concrete steel)
fig 251A DEEP PLAN construction detail 1, posted by Timotheus de Beir at 30.08.17 (filed under: concrete steel)
fig 250A working session, posted by Floris De Bruyn at 30.08.17 (filed under: concrete glass plastics steel)
fig 249A photo, working session, posted by Floris De Bruyn at 30.08.17 (filed under: brick concrete glass steel)
fig 248A photo, exploring the deep plan, posted by Floris De Bruyn at 30.08.17 (filed under: brick concrete glass steel)
fig 247A WTC pattern of the pillars, posted by Fabian Villanyi at 30.08.17 (filed under: concrete steel)
fig 246A Axonometria, posted by Borja Fernandez at 31.07.17 (filed under: brick concrete steel wood)
fig 244A model, Maurício Muller and Jerónimo Bailat, posted by Floris De Bruyn at 27.07.17 (filed under: brick concrete steel)
fig 242A axonometric alejandra and joao, posted by Jerónimo Bailat at 27.07.17 (filed under: brick steel wood)
fig 240A drawing, axonometry Marta and Luciana, posted by Floris De Bruyn at 27.07.17 (filed under: brick concrete steel)
fig 237A final axonometry, posted by Charlette Fremont at 26.07.17 (filed under: brick concrete steel)
fig 226A drawing, proces_27, posted by Laia Bonet at 26.07.17 (filed under: steel)
fig 216A drawing, proces_13, posted by Floris De Bruyn at 26.07.17 (filed under: steel)
fig 212A final isometric Axel and Luna, posted by Axel Fangueiro at 26.07.17 (filed under: brick concrete steel)
fig 209A drawing, proces_10, posted by Floris De Bruyn at 26.07.17 (filed under: steel)
fig 208A drawing, proces_09, posted by Floris De Bruyn at 26.07.17 (filed under: steel)
fig 201A Floors sections, posted by Luna Fonseca at 24.07.17 (filed under: brick concrete steel wood)
fig 197A work in progress … axonometry, posted by Charlette Fremont at 24.07.17 (filed under: concrete steel)
fig 192A sketch, posted by ricardo leitao at 24.07.17 (filed under: steel)
fig 186A Model, posted by Kevin De Roeck at 11.07.17 (filed under: brick plastics steel wood)
fig 186B Model, posted by Kevin De Roeck at 11.07.17 (filed under: brick plastics steel wood)
fig 186C Model, posted by Kevin De Roeck at 11.07.17 (filed under: brick plastics steel wood)
fig 185A DECORMAQUETTE, posted by Alexander Van den Spiegel at 11.07.17 (filed under: concrete steel wood)
fig 184A Design, posted by Kevin De Roeck at 31.05.17 (filed under: brick plastics steel)
fig 184B Design, posted by Kevin De Roeck at 31.05.17 (filed under: brick plastics steel)
fig 184C Design, posted by Kevin De Roeck at 31.05.17 (filed under: brick plastics steel)
fig 184D Design, posted by Kevin De Roeck at 31.05.17 (filed under: brick plastics steel)
fig 183A Structural Analysis, posted by Kevin De Roeck at 31.05.17 (filed under: brick steel)
fig 183B Structural Analysis, posted by Kevin De Roeck at 31.05.17 (filed under: brick steel)
fig 183C Structural Analysis, posted by Kevin De Roeck at 31.05.17 (filed under: brick steel)
fig 183D Structural Analysis, posted by Kevin De Roeck at 31.05.17 (filed under: brick steel)
fig 182A drawing, Masterplan final site gentbrugge, posted by Emmanuelle Vanhaesendonck at 31.05.17 (filed under: steel wood)
fig 182B drawing, Masterplan final site gentbrugge, posted by Emmanuelle Vanhaesendonck at 31.05.17 (filed under: steel wood)
fig 182C drawing, Masterplan final site gentbrugge, posted by Emmanuelle Vanhaesendonck at 31.05.17 (filed under: steel wood)
fig 182D photo, Masterplan final site gentbrugge, posted by Emmanuelle Vanhaesendonck at 31.05.17 (filed under: steel wood)
fig 180A model, Site de Porre – primary structure model, posted by Deborah Dumarey at 31.05.17 (filed under: concrete steel wood)
fig 179A Primary & New, posted by Stephen Van Elslander at 31.05.17 (filed under: brick concrete glass steel wood)
fig 175A drawing, Project BOMA, posted by Stephen Van Elslander at 31.05.17 (filed under: brick concrete steel wood)
fig 175B drawing, Project BOMA, posted by Stephen Van Elslander at 31.05.17 (filed under: brick concrete steel wood)
fig 175C drawing, Project BOMA, posted by Stephen Van Elslander at 31.05.17 (filed under: brick concrete steel wood)
fig 175D drawing, Project BOMA, posted by Stephen Van Elslander at 31.05.17 (filed under: brick concrete steel wood)
fig 174A drawing, current structure analyse, posted by Lawrence Schietgat at 31.05.17 (filed under: steel)
fig 172A drawing, Research new structures in combination with existing, posted by Deborah Dumarey at 31.05.17 (filed under: brick concrete steel wood)
fig 172B drawing, Research new structures in combination with existing, posted by Deborah Dumarey at 31.05.17 (filed under: brick concrete steel wood)
fig 172C drawing, Research new structures in combination with existing, posted by Deborah Dumarey at 31.05.17 (filed under: brick concrete steel wood)
fig 172D drawing, Research new structures in combination with existing, posted by Deborah Dumarey at 31.05.17 (filed under: brick concrete steel wood)
fig 170A photo, REFERENCES, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete glass plastics steel)
fig 170B REFERENCES, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete glass plastics steel)
fig 170C REFERENCES, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete glass plastics steel)
fig 170D REFERENCES, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete glass plastics steel)
fig 168A Tempory billboard on tempory structure, posted by Helen Van de Vloet at 31.05.17 (filed under: steel wood)
fig 167A photo, WORK – tussen, posted by Manon Coppens at 31.05.17 (filed under: steel)
fig 167B WORK – tussen, posted by Manon Coppens at 31.05.17 (filed under: steel)
fig 160A PROCES – AFBREKEN VS OPBOUW, posted by Manon Coppens at 31.05.17 (filed under: brick concrete steel wood)
fig 160B PROCES – AFBREKEN VS OPBOUW, posted by Manon Coppens at 31.05.17 (filed under: brick concrete steel wood)
fig 159A drawing, Research Drawings about the existing structure in the ‘zonder-naamstraat site’, posted by Stan Guldemont at 31.05.17 (filed under: brick steel)
fig 159B Research Drawings about the existing structure in the ‘zonder-naamstraat site’, posted by Stan Guldemont at 31.05.17 (filed under: brick steel)
fig 159C drawing, Research Drawings about the existing structure in the ‘zonder-naamstraat site’, posted by Stan Guldemont at 31.05.17 (filed under: brick steel)
fig 159D drawing, Research Drawings about the existing structure in the ‘zonder-naamstraat site’, posted by Stan Guldemont at 31.05.17 (filed under: brick steel)
fig 157A model masterplan, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete glass plastics steel wood)
fig 156A photo, research structure, posted by Deborah Dumarey at 31.05.17 (filed under: steel wood)
fig 155A drawing, ISO, posted by Manon Coppens at 31.05.17 (filed under: brick concrete steel wood)
fig 153A DRAWINGS, posted by Manon Coppens at 31.05.17 (filed under: brick concrete steel wood)
fig 153B DRAWINGS, posted by Manon Coppens at 31.05.17 (filed under: brick concrete steel wood)
fig 153C DRAWINGS, posted by Manon Coppens at 31.05.17 (filed under: brick concrete steel wood)
fig 153D DRAWINGS, posted by Manon Coppens at 31.05.17 (filed under: brick concrete steel wood)
fig 154A HAMAM – 17.04, posted by Manon Coppens at 31.05.17 (filed under: brick steel wood)
fig 154B HAMAM – 17.04, posted by Manon Coppens at 31.05.17 (filed under: brick steel wood)
fig 151A photo, Site ‘Huidevetterken’, posted by Viktor Devlies at 31.05.17 (filed under: concrete steel)
fig 151B photo, Site ‘Huidevetterken’, posted by Viktor Devlies at 31.05.17 (filed under: concrete steel)
fig 150A Composite steel columns, posted by Viktor Devlies at 31.05.17 (filed under: steel)
fig 149A Sketches, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete steel)
fig 149B Sketches, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete steel)
fig 147A model, ‘HUIDEVETTERKEN’ werkmaquette, posted by Viktor Devlies at 31.05.17 (filed under: concrete glass steel wood)
fig 147B drawing, ‘HUIDEVETTERKEN’ werkmaquette, posted by Viktor Devlies at 31.05.17 (filed under: concrete glass steel wood)
fig 147C model, ‘HUIDEVETTERKEN’ werkmaquette, posted by Viktor Devlies at 31.05.17 (filed under: concrete glass steel wood)
fig 145A STRUCTURAL DESIGN PRINCIPLES, posted by Kevin De Roeck at 31.05.17 (filed under: concrete glass steel)
fig 145B STRUCTURAL DESIGN PRINCIPLES, posted by Kevin De Roeck at 31.05.17 (filed under: concrete glass steel)
fig 145C STRUCTURAL DESIGN PRINCIPLES, posted by Kevin De Roeck at 31.05.17 (filed under: concrete glass steel)
fig 145D STRUCTURAL DESIGN PRINCIPLES, posted by Kevin De Roeck at 31.05.17 (filed under: concrete glass steel)
fig 144A structural options. Isolating a container outside, posted by Helen Van de Vloet at 31.05.17 (filed under: steel wood)
fig 144B structural options. Isolating a container outside, posted by Helen Van de Vloet at 31.05.17 (filed under: steel wood)
fig 142A Urban design, posted by Kevin De Roeck at 31.05.17 (filed under: brick steel)
fig 142B Urban design, posted by Kevin De Roeck at 31.05.17 (filed under: brick steel)
fig 143A structural color, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete steel wood)
fig 143B structural color, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete steel wood)
fig 140A model making in the sun, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete steel wood)
fig 140B model making in the sun, posted by Helen Van de Vloet at 31.05.17 (filed under: concrete steel wood)
fig 141A Site visit Sint-Martens-Latem, posted by Lawrence Schietgat at 31.05.17 (filed under: brick steel wood)
fig 141B Site visit Sint-Martens-Latem, posted by Lawrence Schietgat at 31.05.17 (filed under: brick steel wood)
fig 141C Site visit Sint-Martens-Latem, posted by Lawrence Schietgat at 31.05.17 (filed under: brick steel wood)
fig 141D Site visit Sint-Martens-Latem, posted by Lawrence Schietgat at 31.05.17 (filed under: brick steel wood)
fig 139A DT, posted by Manon Coppens at 31.05.17 (filed under: brick concrete steel wood)
fig 139B DT, posted by Manon Coppens at 31.05.17 (filed under: brick concrete steel wood)
fig 138A Sint – Amandsberg site, Gent. Details, posted by Tim Belaen at 31.05.17 (filed under: concrete glass steel)
fig 136A Sint – Amandsberg site, Gent. Detail Model, posted by Tim Belaen at 31.05.17 (filed under: concrete glass steel)
fig 137A model, photos models, posted by Lawrence Schietgat at 31.05.17 (filed under: concrete steel wood)
fig 137B photo, photos models, posted by Lawrence Schietgat at 31.05.17 (filed under: concrete steel wood)
fig 137C model, photos models, posted by Lawrence Schietgat at 31.05.17 (filed under: concrete steel wood)
fig 137D photos models, posted by Lawrence Schietgat at 31.05.17 (filed under: concrete steel wood)
fig 135A model, Final model, posted by Jean-Louis Verstraete at 31.05.17 (filed under: steel)
fig 133A photo, Final urban model, posted by Jean-Louis Verstraete at 31.05.17 (filed under: steel)
fig 133B Final urban model, posted by Jean-Louis Verstraete at 31.05.17 (filed under: steel)
fig 133C model, Final urban model, posted by Jean-Louis Verstraete at 31.05.17 (filed under: steel)
fig 134A model, Structure models, posted by Jean-Louis Verstraete at 31.05.17 (filed under: steel)
fig 130A Example sites photos, posted by Michiel Vrolix at 31.05.17 (filed under: concrete steel)
fig 130B Example sites photos, posted by Michiel Vrolix at 31.05.17 (filed under: concrete steel)
fig 130C Example sites photos, posted by Michiel Vrolix at 31.05.17 (filed under: concrete steel)
fig 131A Blekerijstraat site photos, posted by Michiel Vrolix at 31.05.17 (filed under: concrete steel)
fig 131B Blekerijstraat site photos, posted by Michiel Vrolix at 31.05.17 (filed under: concrete steel)
fig 131C Blekerijstraat site photos, posted by Michiel Vrolix at 31.05.17 (filed under: concrete steel)
fig 131D Blekerijstraat site photos, posted by Michiel Vrolix at 31.05.17 (filed under: concrete steel)
fig 128A drawing, Final drawings, posted by Jean-Louis Verstraete at 31.05.17 (filed under: steel)
fig 128B model, Final drawings, posted by Jean-Louis Verstraete at 31.05.17 (filed under: steel)
fig 128C drawing, Final drawings, posted by Jean-Louis Verstraete at 31.05.17 (filed under: steel)
fig 128D drawing, Final drawings, posted by Jean-Louis Verstraete at 31.05.17 (filed under: steel)
fig 129A Pictures site Nieuwevaart, posted by Mathias Tack at 31.05.17 (filed under: brick steel wood)
fig 129B Pictures site Nieuwevaart, posted by Mathias Tack at 31.05.17 (filed under: brick steel wood)
fig 127A model, Final, posted by Anton Parys at 31.05.17 (filed under: concrete steel wood)
fig 127B drawing, Final, posted by Anton Parys at 31.05.17 (filed under: concrete steel wood)
fig 127C drawing, Final, posted by Anton Parys at 31.05.17 (filed under: concrete steel wood)
fig 125A Site visit, posted by Mathias Tack at 31.05.17 (filed under: concrete steel)
fig 126A URBAN FARM, posted by Stephen Van Elslander at 31.05.17 (filed under: steel)
fig 126B URBAN FARM, posted by Stephen Van Elslander at 31.05.17 (filed under: steel)
fig 122A Structure site Nieuwevaart Gent, posted by Mathias Tack at 31.05.17 (filed under: brick concrete steel wood)
fig 122B Structure site Nieuwevaart Gent, posted by Mathias Tack at 31.05.17 (filed under: brick concrete steel wood)
fig 123A New structures, posted by Mathias Tack at 31.05.17 (filed under: brick steel wood)
fig 120A Reference structure steel, posted by Mathias Tack at 31.05.17 (filed under: steel)
fig 120B Reference structure steel, posted by Mathias Tack at 31.05.17 (filed under: steel)
fig 120C Reference structure steel, posted by Mathias Tack at 31.05.17 (filed under: steel)
fig 121A Pictures Model, posted by Mathias Tack at 31.05.17 (filed under: brick steel wood)
fig 121B Pictures Model, posted by Mathias Tack at 31.05.17 (filed under: brick steel wood)
fig 116A drawing, Program, posted by Anton Parys at 30.05.17 (filed under: brick concrete glass plastics steel wood)
fig 116B photo, Program, posted by Anton Parys at 30.05.17 (filed under: brick concrete glass plastics steel wood)
fig 116C drawing, Program, posted by Anton Parys at 30.05.17 (filed under: brick concrete glass plastics steel wood)
fig 116D photo, Program, posted by Anton Parys at 30.05.17 (filed under: brick concrete glass plastics steel wood)
fig 114A drawing, Existing structure, posted by Anton Parys at 30.05.17 (filed under: glass steel)
fig 114B drawing, Existing structure, posted by Anton Parys at 30.05.17 (filed under: glass steel)
fig 114C drawing, Existing structure, posted by Anton Parys at 30.05.17 (filed under: glass steel)
fig 114D photo, Existing structure, posted by Anton Parys at 30.05.17 (filed under: glass steel)
fig 113A drawing, Site Ijzerweglaan, posted by Anton Parys at 30.05.17 (filed under: glass steel)
fig 113B photo, Site Ijzerweglaan, posted by Anton Parys at 30.05.17 (filed under: glass steel)
fig 113C model, Site Ijzerweglaan, posted by Anton Parys at 30.05.17 (filed under: glass steel)
fig 113D drawing, Site Ijzerweglaan, posted by Anton Parys at 30.05.17 (filed under: glass steel)
fig 112A photo, Hans Chr. Hansen, Amager Koblingsstation, posted by Anton Parys at 30.05.17 (filed under: steel)
fig 112B photo, Hans Chr. Hansen, Amager Koblingsstation, posted by Anton Parys at 30.05.17 (filed under: steel)
fig 112C photo, Hans Chr. Hansen, Amager Koblingsstation, posted by Anton Parys at 30.05.17 (filed under: steel)
fig 111A ComFlor® 51+, posted by Anton Parys at 30.05.17 (filed under: steel)
fig 111B model, ComFlor® 51+, posted by Anton Parys at 30.05.17 (filed under: steel)
fig 111C photo, ComFlor® 51+, posted by Anton Parys at 30.05.17 (filed under: steel)
fig 110A drawing, Current structure analyse, posted by Lawrence Schietgat at 29.05.17 (filed under: steel)
fig 110B drawing, Current structure analyse, posted by Lawrence Schietgat at 29.05.17 (filed under: steel)
fig 110C Current structure analyse, posted by Lawrence Schietgat at 29.05.17 (filed under: steel)
fig 110D Current structure analyse, posted by Lawrence Schietgat at 29.05.17 (filed under: steel)
fig 108A photo, Gent Voorhaven PortService Warehouses, posted by Rosa Fens at 24.05.17 (filed under: brick steel)
fig 108B photo, Gent Voorhaven PortService Warehouses, posted by Rosa Fens at 24.05.17 (filed under: brick steel)
fig 108C photo, Gent Voorhaven PortService Warehouses, posted by Rosa Fens at 24.05.17 (filed under: brick steel)
fig 108D photo, Gent Voorhaven PortService Warehouses, posted by Rosa Fens at 24.05.17 (filed under: brick steel)
fig 105A WASSERIJ DER VLAANDEREN, posted by Manon Coppens at 24.05.17 (filed under: brick concrete steel wood)
fig 105B WASSERIJ DER VLAANDEREN, posted by Manon Coppens at 24.05.17 (filed under: brick concrete steel wood)
fig 105C WASSERIJ DER VLAANDEREN, posted by Manon Coppens at 24.05.17 (filed under: brick concrete steel wood)
fig 105D WASSERIJ DER VLAANDEREN, posted by Manon Coppens at 24.05.17 (filed under: brick concrete steel wood)
fig 106A drawing, SITE, posted by Helen Van de Vloet at 24.05.17 (filed under: steel)
fig 106B drawing, SITE, posted by Helen Van de Vloet at 24.05.17 (filed under: steel)
fig 107A drawing, details in color, posted by Helen Van de Vloet at 24.05.17 (filed under: steel)
fig 107B details in color, posted by Helen Van de Vloet at 24.05.17 (filed under: steel)
fig 107C details in color, posted by Helen Van de Vloet at 24.05.17 (filed under: steel)
fig 107D details in color, posted by Helen Van de Vloet at 24.05.17 (filed under: steel)
fig 102A drawing, club house, posted by Helen Van de Vloet at 24.05.17 (filed under: steel)
fig 101A WASSERIJ DER VLAANDEREN – ISO LOODS, posted by Manon Coppens at 24.05.17 (filed under: brick concrete steel)
fig 101B WASSERIJ DER VLAANDEREN – ISO LOODS, posted by Manon Coppens at 24.05.17 (filed under: brick concrete steel)
fig 101C WASSERIJ DER VLAANDEREN – ISO LOODS, posted by Manon Coppens at 24.05.17 (filed under: brick concrete steel)
fig 101D drawing, WASSERIJ DER VLAANDEREN – ISO LOODS, posted by Manon Coppens at 24.05.17 (filed under: brick concrete steel)
fig 100A Steel Prefab Structure, posted by Kevin De Roeck at 24.05.17 (filed under: steel)
fig 100B Steel Prefab Structure, posted by Kevin De Roeck at 24.05.17 (filed under: steel)
fig 100C Steel Prefab Structure, posted by Kevin De Roeck at 24.05.17 (filed under: steel)
fig 100D Steel Prefab Structure, posted by Kevin De Roeck at 24.05.17 (filed under: steel)
fig 98A Quick steel, posted by Jean-Louis Verstraete at 24.05.17 (filed under: steel)
fig 99A Basic Concrete Prefab Construction, posted by Kevin De Roeck at 24.05.17 (filed under: concrete steel)
fig 99B Basic Concrete Prefab Construction, posted by Kevin De Roeck at 24.05.17 (filed under: concrete steel)
fig 99C Basic Concrete Prefab Construction, posted by Kevin De Roeck at 24.05.17 (filed under: concrete steel)
fig 99D Basic Concrete Prefab Construction, posted by Kevin De Roeck at 24.05.17 (filed under: concrete steel)
fig 95A Tube and Coupler Scaffolds, posted by Kevin De Roeck at 24.05.17 (filed under: steel)
fig 95B Tube and Coupler Scaffolds, posted by Kevin De Roeck at 24.05.17 (filed under: steel)
fig 95C Tube and Coupler Scaffolds, posted by Kevin De Roeck at 24.05.17 (filed under: steel)
fig 95D Tube and Coupler Scaffolds, posted by Kevin De Roeck at 24.05.17 (filed under: steel)
fig 96A mazda site koopvaardijlaan, posted by Kevin De Roeck at 24.05.17 (filed under: brick concrete steel)
fig 96B mazda site koopvaardijlaan, posted by Kevin De Roeck at 24.05.17 (filed under: brick concrete steel)
fig 96C mazda site koopvaardijlaan, posted by Kevin De Roeck at 24.05.17 (filed under: brick concrete steel)
fig 96D mazda site koopvaardijlaan, posted by Kevin De Roeck at 24.05.17 (filed under: brick concrete steel)
fig 97A drawing, SITE & BUILDING ANALYSIS, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel wood)
fig 97B SITE & BUILDING ANALYSIS, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel wood)
fig 93A TECHNICAL DETAILS, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel wood)
fig 93B TECHNICAL DETAILS, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel wood)
fig 94A INDUSTRIAL CONSTRUCTION SITE, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel)
fig 94B INDUSTRIAL CONSTRUCTION SITE, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel)
fig 94C INDUSTRIAL CONSTRUCTION SITE, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel)
fig 90A Connection of a steel beam to a concrete wall, posted by Deborah Dumarey at 24.05.17 (filed under: concrete steel)
fig 90B Connection of a steel beam to a concrete wall, posted by Deborah Dumarey at 24.05.17 (filed under: concrete steel)
fig 91A MODEL #1, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel wood)
fig 91B MODEL #1, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel wood)
fig 92A MODEL #2, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel wood)
fig 92B MODEL #2, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel wood)
fig 92C MODEL #2, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel wood)
fig 88A MODEL #4, posted by Alexander Van den Spiegel at 24.05.17 (filed under: concrete steel wood)
fig 89A photo, Study models, posted by Thomas Monsy at 24.05.17 (filed under: steel)
fig 89B Study models, posted by Thomas Monsy at 24.05.17 (filed under: steel)
fig 89C photo, Study models, posted by Thomas Monsy at 24.05.17 (filed under: steel)
fig 84A photo, Study models, posted by Thomas Monsy at 24.05.17 (filed under: steel)
fig 84B photo, Study models, posted by Thomas Monsy at 24.05.17 (filed under: steel)
fig 84C photo, Study models, posted by Thomas Monsy at 24.05.17 (filed under: steel)
fig 85A photo, Analysis of the site, structure, detail, posted by Thomas Monsy at 24.05.17 (filed under: steel)
fig 85B photo, Analysis of the site, structure, detail, posted by Thomas Monsy at 24.05.17 (filed under: steel)
fig 85C photo, Analysis of the site, structure, detail, posted by Thomas Monsy at 24.05.17 (filed under: steel)
fig 85D photo, Analysis of the site, structure, detail, posted by Thomas Monsy at 24.05.17 (filed under: steel)
fig 86A photo, Wittemolenstraat, Sint – Amandsberg, posted by Tim Belaen at 24.05.17 (filed under: steel)
fig 86B Wittemolenstraat, Sint – Amandsberg, posted by Tim Belaen at 24.05.17 (filed under: steel)
fig 87A Analysis structure De Porre, posted by Deborah Dumarey at 24.05.17 (filed under: concrete steel)
fig 87B Analysis structure De Porre, posted by Deborah Dumarey at 24.05.17 (filed under: concrete steel)
fig 87C Analysis structure De Porre, posted by Deborah Dumarey at 24.05.17 (filed under: concrete steel)