3
16
20
24
26
Architecture Portfolio
9
Berk Ozturk
12
PROFILE
INDEX OF PROJECTS
A new building for Politecnico_Construction Studio (Poltecnico of Milan) p. 3 Mountain House_Building Technology and Design (IUAV) p.7 Mediterrean Cultural Centre_Second Year Design Studio (IUAV) p.13
Born in Turkey and grew up in Italy. These two cultures shaped his identity and are constantly present in his life. After graduating from IUAV he took part in architectural workshops at the Biennale of Venice and in Trento (organized by the Acropoli association). He spent his last year, before starting his master’s degree at the Politecnico of Milan, in internships in Rotterdam and Istanbul.
Once upon a time in Cavallino_Urban Planning and Design (IUAV) p.16 A 3D landscape for learning and playing_with StudioMaks p. 20 Agorhub_Design&Build Workshop p. 24 The Teleporter _with So Istanbul p. 26
A new building for Politecnico_Construction Studio Project info: Location: Milano_Italy Academic Project Group work (3 people)
Semestral course: 09/19_02/20 Carried Out: 02/20
Supervisors: Arch. Brunetti Gian Luca gianluca.brunetti@polimi.it Ing. Boffi Giacomo giacomo.boffi@polimi.it
Perspective View
The design area is located between via Bonardi, via Golgi and the building of the department of Electronics. In order to integrate the geometry of the existing site, the building has been divided into two volumes with different volumes. From a programmatic perspective, the building will develop common spaces in the ground floor while lecture and drawing rooms will be organised in the upper floors.
Perspective View
Site Plan
3
A new building for Politecnico
1
2
3
4
1
2
3
4
D
D
D
D
C
C
C
C
B
B
B
B
A
A
A
6
1
5
2
6
5
1
5
2
Z
Z
Z
Y
Y
Y
X
3
4
5
6
Z
Y
6
X
3 A
3
5
X
6
X
3
4
5
6
2nd Floor Plan
Ground Floor Plan
1
2
3
4
D
D
C
C
B
B
A
A
B
C
D
A
B
C
D
A 5 1
6
2
Z
Z
Section
Y
Y
X
X
3
1st Floor Plan
4
5
It aimes to be a building environmentally sustainable as regards the energy requirements for heating and cooling the building. Moreover, the acoustic and lighting performance of the designed spaces are thought to be flexibility controlled by architectural and structural solution such as wood panels or also waffle slabs.
6
4
A new building for Politecnico
525
900
400
A1
•
2100
• • •
• • •
3450
300
EXTERIOR FINISHED PANELS, UPPER FINISHING IN NATURAL GRANITE, NOMINAL PANEL THICKNESS 25mm. DOUBLE WATERPROOFING MEMBRANE. LIGHTWEIGHT CONCRETE–SCREED FILLING M400, SLOPE 0,9%, MIN. THICKNESS 50mm. THERMAL INSULATION–EXPANDED POLYSTYRENE, IPLB150 PAREXLANKO©, THICKNESS 150mm, THERMAL RES R= 3,95 m².K/W. VAPOUR BARRIER. REINFORCED CONCRETE WAFFLE SLAB, TOP LAYER THICKNESS 100mm, MOULD HEIGHT 425mm. WAFFLE SLAB CAST IN PLACE USING FG900 MOULDS FROM FERCANORTE©.
•
RAILING MADE OF WOODEN FIXED PANEL, THICKNESS 30mm. SYSTEM SECURING RAILING WITH 30x30mm / 90x90mm ALUMINUM STRUCTURAL PROFILE FROM AL.GO.©. SYSTEM DIRECTLY FIXED ON THE SLAB USING A DIE-CAST ALUMINIUM FOOT PLATE.
B1
1200
4250
•
250
500
500
250 140
300
140
1735
A2
1750
•
• •
INTERIOR FINISHED PANELS IN ALUMINIUM, 30LFL©, UPPER FINISHING IN LAMINATE, NOMINAL PANEL THICKNESS 28,5mm. POLYESTER ACOUSTIC UNDERFLOOR BATTS, THICKNESS 130mm. REINFORCED CONCRETE WAFFLE SLAB, TOP LAYER THICKNESS 75mm, MOULD HEIGHT 425mm. WAFFLE SLAB CAST IN PLACE USING FG900 MOULDS FROM FERCANORTE©.
• • • •
• •
•
3700
WOODEN SLIDING PANEL, THICKNESS 30mm. MODULAR GLAZED FACADE, 6/16/6mm INSULATED GLASS ALUMINIUM FRAMED WINDOW FROM STABALUX H©. WOODEN FRAME 140x16mm.
4250
•
3700
•
300
EXTERIOR FINISHED PANELS, UPPER FINISHING IN NATURAL GRANITE, NOMINAL PANEL THICKNESS 25mm. DOUBLE WATERPROOFING MEMBRANE. LIGHTWEIGHT CONCRETE – SCREED FILLING M400, SLOPE 0,9%, MINIMUM THICKNESS 50mm. THERMAL INSULATION – EXPANDED POLYSTYRENE, IPLB250 FROM PAREXLANKO©, THICKNESS 250mm, THERMAL RESISTANCE R= 6,60 m².K/W. VAPOUR BARRIER. REINFORCED CONCRETE SLAB, CAST IN PLACE, THICKNESS 250mm.
• • •
A3 • •
D3
• •
250
250
300
300
D2
WOODEN SLIDING PANEL, THICKNESS 30mm. FIBER CEMENT BOARD, THICKNESS 16mm. STEEL POINT FASTENER. SYSTEM SECURING FACADE FORMED BY STAINLESS STEEL L-PROFILE CONNECTORS AND L-BRACKET ANCHORS. WATER PROOFING MEMBRANE. THERMAL INSULATION – EXPANDED POLYSTYRENE, IPLB180 FROM PAREXLANKO©, THICKNESS 180mm, THERMAL RESISTANCE R= 4,75 m².K/W. VAPOUR BARRIER. REINFORCED CONCRETE BEAM 500x300mm.
300
•
1250
• •
4250
• • •
D1
•
0
50
100
0
25
50
100
1:1000
0
12.5
25
50
1:500
0
5
10
20
1:200
0
2.5
5
10
1:100
0
1.25
2.5
5
1:50
0
0.5
1
2
1:20
0
0.25
0.5
1
1:10
•
4000
4000
350
INTERIOR FINISHED PANELS IN ALUMINIUM, 30LFL©, UPPER FINISHING IN LAMINATE, NOMINAL PANEL THICKNESS 28,5mm. THERMAL INSULATION – EXPANDED POLYSTYRENE, IPLB80 FROM PAREXLANKO©, THICKNESS 80mm, THERMAL RESISTANCE R= 2,10 m².K/W. REINFORCED CONCRETE SLAB, CAST IN PLACE, THICKNESS 100mm. IGLU’© FORMWORK, HEIGHT 400mm. LIGHTWEIGHT CONCRETE, M400, THICKNESS 100mm. REINFORCED CONCRETE PAD FOOTING, CAST IN PLACE, 200THICKNESS 350mm.1:2000 BLINDING CONCRETE, THICKNESS 100mm. • • • •
• •
A4
150
100
A rc h it ect ure Co nst r uc t i o n S t u d i o Collaborators: Greta Cornaggia Renato Juarez Corso Eliana Tonelli
Students: Antoine Boucher Berk Ozturk Sofiia Zozulia
930886 942110 938778
1:2000
0
25
50
100
1:1000
0
12.5
25
50
1:500
5
10
20
1:200
2.5
5
10
1:100
1.25
2.5
5
1:50
0
0.5
1
2
1:20
0
0.25
0.5
1
1:10
0.5
1:5
350
0
Date:
Panel:
27 January 2020
Construction detail 0 and elevation 0.125
Scale:
0.25
1:20
0.5
8
1:5
100
Elevation and constructive detail Detail B and elevation
Teachers: Gian Luca Brunetti Giacomo Boffi Marco Scaioni
200
0
1200
Detail A and elevation
Politecnico di Milano School of Architecture, Urban PLanning and Construction Engineering Course of Studies in Construction Architecture 2019-2020
100
0
600 950
Elevation and constructive detail
50
600
200
•
WALK-ON VENTILATION OUTLET GRILLE. FIBER CEMENT BOARD, THICKNESS 16mm. STEEL POINT FASTENER. SYSTEM SECURING FACADE FORMED BY STAINLESS STEEL L-PROFILE CONNECTORS AND L-BRACKET ANCHORS. WATER PROOFING MEMBRANE. THERMAL INSULATION – EXPANDED POLYSTYRENE, IPLB140 FROM PAREXLANKO©, THICKNESS 140mm, THERMAL RESISTANCE R= 3,70 m².K/W. REINFORCED CONCRETE STRUCTURE.
0
150
•
•
MODULAR GLAZED FACADE, 6/16/6mm INSULATED GLASS ALUMINIUM FRAMED WINDOW FROM STABALUX H©. WOODEN FRAME.
Arc hit ecture Co nstr uctio n S tudio Politecnico di Milano School of Architecture, Urban PLanning and Construction Engineering Course of Studies in Construction Architecture 2019-2020
Teachers: Gian Luca Brunetti Giacomo Boffi Marco Scaioni
Collaborators: Greta Cornaggia Renato Juarez Corso Eliana Tonelli
Students: Antoine Boucher Berk Ozturk Sofiia Zozulia
930886 942110 938778
Date:
Panel:
27 January 2020
Construction detail 0 and elevation 0.125
Scale:
0.25
1:20
10
5
A new building for Politecnico 330
330 330
0
1750
63
350
300
350
0
63
1300
1300
0
63
1750
350
300
1750
300
• •
• •
600
• •
600
250
260
250
260
600
250
260
600
600600
• •
4000
WOODEN SLIDING PANEL, THICKNESS 30mm. FIBER CEMENT BOARD, THICKNESS 16mm. STEEL POINT FASTENER. SYSTEM SECURING FACADE FORMED BY STAINLESS STEEL L-PROFILE CONNECTORS AND L-BRACKET ANCHORS. WATER PROOFING MEMBRANE. THERMAL INSULATION – EXPANDED POLYSTYRENE, IPLB180 FROM PAREXLANKO©, THICKNESS 180mm, THERMAL RESISTANCE R= 4,75 m².K/W. VAPOUR BARRIER. REINFORCED CONCRETE BEAM 500x300mm.
4000
•
RAILING MADE OF WOODEN FIXED PANEL, THICKNESS 30mm. SYSTEM SECURING RAILING WITH 30x30mm / 90x90mm ALUMINUM STRUCTURAL PROFILE FROM AL.GO.©. SYSTEM DIRECTLY FIXED ON THE SLAB USING A DIE-CAST ALUMINIUM FOOT PLATE.
600
•
600600
=^mZbe =*% `khng] Ühhk
4000
1300
630630
630
260260
260
=^mZbe =+% Ûklm Ühhk
=^mZbe =+% Ûklm Ühhk • •
WOODEN SLIDING PANEL, THICKNESS 30mm. MODULAR GLAZED FACADE, 6/16/6mm INSULATED GLASS ALUMINIUM FRAMED WINDOW FROM STABALUX H©. WOODEN FRAME 140x16mm.
63 63 0 0
63
0
•
275
275 275 300
300
1240
300 1240
630630
630
1240
=^mZbe =,% Ûklm Ühhk
=^mZbe =,% Ûklm Ühhk onstructive details
Exterior Panels Detail B1, terrace
Arc hit ect u re Co n s t r u c t i o n S t u di o Politecnico di Milano School of Architecture, Urban PLanning and Construction Engineering Course of Studies in Construction Architecture 2019-2020
Teachers: Gian Luca Brunetti Giacomo Boffi Marco Scaioni
Collaborators: Greta Cornaggia Renato Juarez Corso Eliana Tonelli
Students: Antoine Boucher Berk Ozturk Sofiia Zozulia
930886 942110 938778
Date:
Panel:
Scale:
27 January 2020
Construction details
1:20, 1:5
13
Wooden exterior sliding panel
Arc h i t e ct u re C o n st r u ct i o n S t u di o Politecnico di Milano School of Architecture, Urban PLanning and Construction Engineering Course of Studies in Construction Architecture 2019-2020
Teachers: Gian Luca Brunetti Giacomo Boffi Marco Scaioni
Collaborators: Greta Cornaggia Renato Juarez Corso Eliana Tonelli
Students: Antoine Boucher Berk Ozturk Sofiia Zozulia
930886 942110 938778
Date:
Panel:
Scale:
27 January 2020
Construction detail and axonometry
1:5
116
Mountain House_Building Technology and Design Project info: Location: Orias_Italy Academic Project Group work (2 people)
Annual course:10/16_06/17 Carried out:20 June 2017
Supervisor: Arch. Giovanna Mar giomar@studioarchitettimar.eu
Site Elevation
Preliminary design sketch
I
Sliding Glass Facade, Axo
III
II
Stavoli di Orias a mountain environment in which the project is located. Emerging from the strong landscape, we proposed a single-family house of 90m2, in which two solutions were elaborated: Low-Tech and High-Tech. An archetipical in situ cast concrete dwelling, in the first case, and the second option comes with UHPC panels and a sliding glass facade. Construction and structural details were studied in-depth and local building techniques were taken into consideration given the site’s characteristics.
Prato Carnico, a comune in the Province of Udine in Italy, gave us the occasion to read and re-interpretate traditional architecture at high-altitude. The design intent was to rethink the traditional typology of houses in the area in a contemporary mindset. The search for the classic image of the local stavoli’s, in stone and wood, was achieved by a building with a bold materic appearance, in concrete, which created new contrasts and new dichotomies. The house opens towards the valley to the south with a glass facade, engaging visually with the landscape, the narrow windows remind the traditional openings and filter the light. Through a modest niche, we wanted to reach a feeling of shelter and protection, pointing out the concept of threshold, to face all the climatic conditions of the Mountain environment.
7
Mountain House
Low Tech, North Elevation
High Tech, South Elevation
Low Tech, West Elevation
High Tech, East Elevation
8
Mountain House
Low Tech, Plan
Low Tech, Section
High Tech, Plan
High Tech, Section
9
Mountain House
Low Tech, Foundation, Window and Roof Detail
High Tech, Foundation, Window and Roof Detail
10
Mountain House
Low Tech, Sliding Door and Roof Detail
High Tech, Sliding Door and Roof Detail
11
Mountain House
Low Tech, Facade Detail
High Tech, Sliding Facade Detail
12
Mediterrean Cultural Centre_Second Year Design Studio Project info: Location: Milan_Italy Academic Project Group work (3 people)
Site Plan and Model
Annual course: 10/16_06/17 Carried Out: 13 June 2017
Supervisor: Arch.Mauro Galantino galantinoarchitettura@tin.it
In front of Herzog & De Meuron’s Feltrinelli in Milan rises the cultural centre in which various functions and users interact with each other and the city. A multitude of uses (temporary residences for refugees, library, offices, spaces for meditation, auditorium, exhibition area, restoration area) make of this project a centre for diversified cultures. An architecture that takes the city inside itself and gives a surplus value at it. The design intended to create distinct open-air plaza’s; the circulation and interaction between the different users of the Centre was taken into particular consideration.
Axonometries
Program
13
Mediterrean Cultural Centre
Ground Floor Plan and Section
1st Floor Plan and Section
14
Mediterrean Cultural Centre
Perspective sections
2nd Floor Plan and Section render by Alessandro L.
15
Once upon a time in Cavallino_Urban Planning and Design Project info: Location: Cavallino_Italy Academic Project Group work (2 people)
Semestral course: 02/18_06/18 Carried Out: 11 June 2018
Supervisor: Arch. Paola Viganò paola.vigano@iuav.it
Water level: 0.0m, +1.0m, +1.5m, 2.0m
My latest academic project at the University of Venice was in the course Urbanism and planning design held by Paola Viganò. The theme of our larger group (15 people) was to envision a future scenario: The peninsula of Cavallino-Treporti in 2050. As seen above, the research exposed the fragility of the peninsula against tidal waves and the rise of the water level.
The collective research led us to consider two scenarios, Resiliency and Resistance: How architecture and urban design would react to the rise of the water level that is threatening the existence of the peninsula.
The resilient approach wanted to let the peninsula be floaded by the water, this would lead to redefine its perimeter, while the perspective of resistance would protect it. Manifesto
handrawing by Sharon G.
16
Once upon a time in Cavallino
Furthermore, (team of 2 people) we had to propose a design based on our research topic which was Agriculture.
Initially we developed the idea of resiliency: the peninsula would have been gradually floaded by the water and a strong infrastructure would be superimposed to the peninsula. This grid-infrastructure would control the water flow and enable an idroponic agriculture. Then we pursued a future scenario of Resistance, in which a dike would protect the peninsula against the rise of the level of water and tidal waves in Cavallino. Through precision agriculture, we would revitalize farming as a response to the decrease of interest for cultivation in the peninsula. With this up to date concept of precision agriculture, the farmer would be replaced by drones and autonomous farm vehicles, new figures such as technicians and operators would be introduced, disused greenhouses would be transformed in laboratories and workspaces.
This innovative method will require substantial energy, which could be granted by new biogas plants. The dike, fields for farming, greenhouses and biogas plants would be work together and be interconnected by digital infrastructure, to generate what we called a technological hortus conclusus.
Our research led us to study furthermore the work of Constant Nieuwenhuys (New Babylon) and we were inspired by A.Branzi’s Agronica.
Site Plan, Fields, Biogas Plants and Greenhouses
Andrea Branzi-Agronica
Constant Nieuwenhuys-New Babylon
The Dike
Greenhouses and Biogas Plants
Cultivated Fields
17
Once upon a time in Cavallino
Precision Agriculture
Phase I: conversion to precision agriculture of the unused fields
Abondoned Greenhouses
Biogas Plants, Greenhouses and Cultivated Fields Phase II: conversion to precision agriculture of all cultivated fields
18
Once upon a time in Cavallino
Concept axonometry
Perspective View, Biogas Plant
Perspective View, Greenhouses and Cultivated Fields
3 Gazes, Virtual-Real-Ideal landscape
drawing by Berk O.
19
A 3D landscape for learning and playing_with Studio Maks Project info: Location: Vienna_Austria Professional Project
Role: concept designer, 3D modeling and rendering
Competition: 11/18_01/19
Contribution: drawings, detail drawings, 3d model
Supervisor: Arch. Marieke Kums mk@studiomaks.nl
Contextual Elevation
As with many elementary schools in dense urban areas, the new Volksschule will be a challenge to create child-friendly spaces for both learning and playing. Another challenge of the project lies in urban planning: a relatively large building volume is planned on a relatively small plot of land. Our design attempts to adapt as well as possible to the existing urban planning context of the perimeter block development. Within this sensitive context, we seek to create a learning environment that radiates its own unique identity.
Site Plan
20
A 3D landscape for learning and playing
2nd Floor Plan East Section
3rd Floor Plan
South Elevation
Our proposal for the Ganztagsvolksschule consists of a multi-layered learning and play landscape: a school where the indoor and outdoor areas are connected to create a holistic learning environment. On the southern side of the garden, the building changes with a variety of outdoor learning and play areas, followed by the Multifunctional surfaces, classrooms and creative areas. For the general well-being, the relation to the outdoor space is very important: not only that for the daylight and fresh air in the interior are important, but also the outdoor spaces to stay and learn. The whole school is a sophisticated modular faรงade that creates a unified image. The terraces form a continuous landscape, which is in direct connection to many interiors. From the individual classrooms in the open air you can reach other shared gardens and playgrounds via various stairs. 4th Floor Plan
21
A 3D landscape for learning and playing
Axonometric view
22
A 3D landscape for learning and playing
Perspective top view
23
Agorhub_Design&Build Workshop Project info: Location: Trento_Italy Workshop Chiasma#812926
Duration:17/09/18_23/09/18
(From the website) Chiasma#81292 is the second edition of the design and build workshop organized by the university association Acropoli. It has entirely been designed and realized by students and young architects. Promoted by:AssociazioneAcropoli Coordination: Campomarzio, Studio Fakt, Collettivo Orizzontale
The result of the weeklong event is “AgorHUB�, a system of different elements which coexist in the internal yard of ImpactHub Trento, defining an interesting and alienating place where to stay, a true urban oasis designed for social interaction.
The Circus
The Obelisk
Perspective view
Perspective view
Top view, section, elevation
Top view, section, elevation
24
Agorhub
Plan and Elevation
25
The Teleporter _with So Istanbul
Location: Istanbul_Turkey Professional Project
Contribution: 3d modeling, detail drawings, construction supervisor
Supervisor: Arch. Oral Goktas info@soistanbul.com
Carried Out: 05/19_07/19
My latest work experience in an architecture office was in SO? in Istanbul, I ve been working for 3 months, contrubuting in different projects and commisions, from designing stands in a trade fair for a furniture company to participating in competitions. The project on which I was focused mostly is The Teleporter, a temporary pavilion designed for the Biennale of Istanbul 2019, which was going to house the artworks of two Turkish contemporary artists. I’ve been active in the modeling phase, feasibility studies, and partially in supervising the construction of the structure made principally out of scaffoldings. Unfortunately, for organizational reasons, the exhibition moved somewhere else and the pavilion had to be disassembled before its completition. Perspective section
Axonometric view
Perspective section
26
The Teleporter
27
Architecture Portfolio
Berk Ozturk