architecture portfolio Krisztina Bardossy by Bárdossy Krisztina

Krisztina Bรกrdossy portfolio 2016

Krisztina Bárdossy date/place of birth:

1990.09.05, Budapest, Hungary

e-mail: bardkrisztina@gmail.com address:

1137, Szent István park 9., Budapest, Hungary

phone:

+ 3620 2560977

Education

2009- 2013-2014 2001-2009

Budapest University of Technology and Economics (BME) Faculty of Architecture, specialisation in constructions (since 2012) École National Supérieure d’Architecture de Lyon (ENSAL, Lyon, France) ELTE Radnóti Miklós High School, faculty of mathematics and physics

Language hungarian (mother tongue)

english (fluent, upper intermediate) french (intermediate, DELF B2) german (beginner, A2)

Skills ArchiCAD

AutoCAD Architecture Adobe Master Collection (Adobe Photoshop, Adobe Illustrator, Adobe InDesign, Adobe Premier Pro) laser cutting, hand drafting and modelling, carpenter machines Google Sketch up MS Office

Personal contemporary dance, ballet, photography, reading, travelling, tennis

Professional practice

2015 Sporaarchitects , 4 week emloyment at an architectural design studio (september-october) 2015 METO Építő Zrt. , 4 week employment at a construction company (july) 2014 KÉK - Contemporary Architecture Center, assistant at organising “Lakatlan” urban revitalisation project, 6 weeks 2014 Hollán9, interieur design studio, 2 month(may-june)

Professional experiences, workshops, researches 2015 2014

Vitra Design Museum, Summer Workshop at Domaine de Boisbuchet, France “Fireplace for Boisbuchet” workshop leaders: Alvaro Siza Vieira, Carlos Castanheira organiser: Alexander von Vegesack Scénographie, interactive mapping architecture workshop, Lyon, France workshop leader: Theoriz Crew

2014 Hellowood - project ForceFields, leader: Biayna Bogosian (Columbia University GSAPP, New York) 2013 Hellowood - project FireNEST, leaders: András Cseh (CZITA), Bálint Veres (MOME) 2012 Hellowood - project Bóta-net, leaders: Áron Losonczi (inventor of Litracon), Bence Turányi (t2a architects) 2013 Cities Revis(it)ed, 10-day urbanistical workshop in association with students and teachers of Politechnico di Milano and Barcelona School of Architecture (ETSAB) workshop vezetők: Bálint Kádár, Kornélia Kisfazekas (BME Department of Urban Planning and Design) 2012 “Bauxite concrete then and now” University Science Research Conference Jury’s special Csonka Pal prize, BME Department of Mechanics, Materials & Structures, partner: Balázs Zoltán Zsoldos consulent: Miklós Armuth PhD 2011 Ilik “Intelligent Home Intelligent Environment” member of a building energetics research team at BME Department of Residental Buiding Design researc leaders: József Hild DLA, József Kolossa DLA, Tamás Perényi DLA 2010 “The smallest appartement” University Science Research Conference 3rd price, BME Department of Residential Buiding Designs, group members: Krisztina Bárdossy, Péter Lantos, Ádám Reim, Balázs Zoltán Zsoldos

Art trading house

.........................................................................................................................................................................................................6-7

public building design 2013

Painting camp

in_Nature, internationale competition, 2nd round 2011

The Nest

urban planning design 2013

Hospital extension for Alzheimer patients

.................................................................................................................................................12-13

design for disabled people 2013

Broken fabrics, concrete textures

..............................................................................................................................................................14-15

concrete workshop and design 2012

SchĂŠnographie

interactive mapping architecture 2014

BagĂĄzs home

social architecture 2013

Metronity .....

short film fort the 2014 Venice Biennale, Hungarian Pavilion 2014

Gastro table

furniture design and workshop 2015

Football ground for Monor

...........................................................................................................................................................................20-25

public building and public place design 2014

Dance studio

thesis project 2015

Appartement at Street Hollan

...........................................................................................................................................................................36-37

renovation work and interieur design 2013

B贸ta-net

Hellowood, timber workshop participant 2012

fireNest

Hellowood, timber workshop paticipant 2013

Forcefields

Hellowood, timber workshop participant 2014

Fireplace for Boisbuchet

........................................................................................................................................................................................50-51

workshp participant 2015

Parametrical architecture

...........................................................................................................................................................................52-55

experimental 2013

Photography selection 2013-2015

Art trading house public building design Esztergom, Hungary consultants: Levente Szab贸 DLA, Tam谩s Berecz Department of Public Building Design (2013) The project is situated in Esztergom, on the shores of the Danube, next to a small town square. The approach of the market and the trading house had a very important role while I was formulating the conception. The building complex is built up from tiny boxes, which are small shops on the ground floor and small ateliers for applied art entrepreneurs, jewelers or industrial designers on the first floor. These are connected to each other by small balconies. The colors of the shop and the ateliers are orange and white, but they are inverts to show the separated functions. There is a market in the center of the trading house, it gives place for temporary outdoor markets. On weekdays the market place transforms into a semi-hidden inner courtyard, which is both for the art traders who are working there and for the local community who just pass by, but on weekends the market life and the Danube attracts people there creating a bustling life on the square.

approaches opened up from the Danube numerous from the square from the street orage and white invers colours

calem, isolated upper floor the sudio easily approachable, eventful ground floor the shop independent boxes under a collecting frame

Painting camp on Zebegényi Island in_Nature, international idea competition 2nd round team: Gergő Jedlicska, Gergő Kenéz, Szabolcs Mikó, Flóra Júlia Perényi (2011) The concept of the competion was to create a building complex that can bring closer the human to the nature. The task was also to find a proper site for this program. We choosed the Zebegény Island, it is really close to Budapest in Hungary. The speciality of this island is that it totally disapperars during floods and only the top of the trees are visible. The idea of a painting camp came from the memory of István Szőnyi, a famous hungarian artist who worked and teached here. By dividing the functions (dormitory, studios, cafe, boat house) we created a zigzag ribbon, the buildings are on the edge of the island to prevent the cut of the trees. Also the zigzag angle of an units shows us the way to the next units. The buildings are moving vertically with the change of the flood with the help of a barge system under them, but horizontally the have a fix place. In this case you can approach the units by boats. This creates a special direct connection with the nature.

The nest urban planning Kopaszi dam, Budapest, Hungary team: Orsolya Hajdu, Éva Losonczi consultants: Bálint Kádár, Kornélia Kisfazekas BME Department of Urban Planning and Design (2013) The huge site is next to the Kopaszi dam, it was an industrial area for decades. The first question was that how we can prevent the phonomenon of a ghost town, which would be arised for the first habitants. We wanted to avoid the risk of an interrupted investment, but also it was a goan to find a way of an organic urban development, continously formints its own identity. The name of the project - the NEST, refers to this organis development, that the disrict would be constructed in 4 steps, and it refers to the young work entrants and nidificating families, this project wants to attract them, with smaller, cheaper start-up offices, small, but expandeble appartements. There are planned common spaces and squares between the parcels installed in different steps to connect them. This system let the district to flexibly adapt to the changing needs, problems and circumstences.

Hospital extension for Alzheimer patients architecture for disabled people ENSAL, Lyon, France partner: Luis Lopez Soriano (2014)

This is a residential unit extention for 12 Alzheimer patients. Due to the special symptoms of the disease the makes the space transparent breaks the corridorâ&#x20AC;&#x2122;s straight concept focuses on facilating the and helps with the orientation helps differentiating the dif- order, and the patients can ferent rooms, and other extra develop personal spaces front orientation in space. One of the key tools is the closed atrium garden in clue helping the orientation of their rooms, like in a village the middle of the building. Here the patients can safely walk around preserving their autonomy. The garden is separated by grand glasswindow surfaces, which helps everyone to understand their spatial situation and to locate themselves in the building. Also the natural lighting is especially important in this special situation. closed atrium garden

the different heights of the spaces

playing with the rooms

The day and night functions are separated, which helps them to find their daily rutin. By changing the height of the rooms, it can be also a reference information to help them in the orientation. Every room has its own little balcony to safe their own autonomy, and every room is like a small house in a village, with a little personal foreground on the corridor to help them recognizing their own home.

Broken fabrics concrete textures DEPO concete workhop group member: Orsoly Hajdu Kitti Halasz consultants: Anna Baróthy, Anna Lénárd (Szövetség ‘39) Department of Public Building Design (2012) It is very important to me to get to know up close the materials. During one semester at my university (BME) I had the chance to immerse and experience the concrete work. Our concept was to “patch” some of the decaying facades in the downtown of Budapest. Adapting to the scales of the differents patches, we created rough textures for the bigger ones, (cf. row), and finer supplemetations for the tiny ones, like a lace. We tried out many different fabrics and materiels, and for the final work we created postive forms with using negative plaster cast formworks. The project contained four patching, which are located in the Street Jósika and Street Wesselény.

Scénographie “...if the walls could speek” Lyon, France in association with ENSAL group members: Daniel Stephany, Balázs Zoltán Zsoldos project leader and consultant: Theoriz Crew (2014)

Theoriz Crew is a french creative group who are specialised on hightech gadgets and scénoghraphies. The task was to make a projection on the walls of the central hall of the university ENSAL to make the building get alive. Our team created a special interactive projection: with the help of a motion detector hardver, the projected video reacted on our hand movements. Depending on which hand we used or how we were moving one parameter of the projection changed: the colors, the light intensity or the coordinates of form. It was an exiting experience to make a special contact between the building and its user.

Bagรกzs house volunteer at a social building project Bag, Hungary in association with: Prezi, Habitat for Humanity Hungary, Bagรกzs non-profit association design: Studio Reflekt (2013) Reflekt Studio designed a small social building for Bagรกzs non-profit association, which was set up in the slums of Bag, a small hungarian village. Since 2011 social workers and volunteers are organising programs, tutorings, mentoring and summer camps for the local children to. Most of them are socially multiply diadvantaged. The community needed a safe point and a calm place for tutoring and to have group discussions. As an extension for two containers a small lodge and a covered terrace were built up in 3 days - also basic furnitures, small reparations and window replacemnets were made. Iworked as a volunteer to help the construction. In the summer I returned to work as a photographer in the summer camp, where the children painted the building with their drawings and it was edifying to witness how a bulit project works in the reality after the local community accepted it and feel it their own.

Metronity short film for the 2014 Venice Biennale group member: Paul Benoit consultants: Bálint Kádár (BME) Kornelia Kisfazekas (BME) Zsófia Tálas (film editor) BME, Department of Urban Planning and Design Faculty of Architecture (2014) At the 2014 Venice Biennale, the curator, Rem Koolhaas focused on the subject of “absorbing modernity”, researching each nations own identity towards the Modern Movement. We had the oppurtunity to apply with shorfilms and they were played in Venice at the Hungarian Pavilion as a one-occasion event. Our team focused on the world of the metro and the subway, as a phenomenon closely related to modernity. The subway system is an alternative layer under the city. We focused on the pure funcionality (connecting one place to an other), the acceleration and the speed. It has its own strong rhythm and it is really hard to save your independency in this world. We examined rhythm conflict situations, when the crowd is too fast or too slow, or when we unwillingly get close to each other.

Gastro serving table furniture design workshop Arhitecture Unconfortable (AU) organised by Techinka Budepest, Hungary (2015) The goal of the workshop was to create special furnitures for the grand opening ceremony of a barkácsüzem, Technika. There were also held a gastro workshop, so we had to adapt constantly to their food conceptions. In the studio of Architecture Unconfortable young architecst are working, usually developping small scale projects, pavilons, ocsasional furnitures for festival, etc. At this one, the main concept was to serve the unusual food in an unusual way. The plates were the part of table, they are replacebles and they are fitting in their wholes cut out of the wood plank. I really enjoy timberworks, and learn not oly how to use the material, but also working with joiner’s tools.

football ground_Monor

Football ground community sport buiding and public place design Monor, Hungary

planned school

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approaches and openings towards the shool

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site plan

planned school

Our plan was to design a football ground here, which could be used not only for sport programs, but also for all the outdoor events of the village and can adapt to the special local circumstannces and uses. We also involved the small local washing building into the masterplan, which has a very strong role int the life of the community, as there is no water in most of the houses and we found that it can strenghten the role of a new common space. A new gym- and club house were also the part of the plan. It was also an importan aspect to divide

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The locals living in the slums of Monor are socially multiply disadvantaged. The programme “Presence” by the Hungarian Charity Service of the Order of Malta organised a football club here, the Monor FC, which seems to be really efficient in involving the young generations to their programme to help them and basically the only local opportunity to find ways out of poverty.

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team: Dóra Lőrincz, Gergő David Szabó consultants: Balázs Kemes, Miklós Oroszlány BME Depament of Public Building Design (2014)

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C et

rotated coordinate-system gym and club room parking place for Malta bus

laundry football ground

function sheme

4 step construction

parking place for Malta bus

gym and club room

football ground and grandstand

ground floor plan

laundry and drying place

master plan

first floor plan

but the contsuction is in progress. We choosed natural materials, the walls are made of adobe bricks. It gives a chance to the locals to be part of the construction, and creates them jobs. The insulation is made of thatchboard. The ossature is a wooden frame structure, this gives the angle of the roof slope. The goal was to use sustainable materials, with a very low upkeep cost to make it affordable for the locals. The construction will begin approximately in the summer of 2017 based on the concept of our plan.

12,41

2,78

11,26

2,01

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3,50

+5,11

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GSEducationalVersion

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3,30

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2,82

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3,50

3,50 11,18

1,50

0,50

2,99

2,50

4,12

0,20

3,50 0,50

the construction into several steps and each phase had to be a functionally working unit by itself, because the support system is sometimes unpredictable. This helps the cummunity to take advantage by small investments but it also has perspectives for a future development. The football grandstand is built on a small slope which resuts less soil work. The building surronds the ground in a C-form, it separates the place with an opened boundary from the other place of the slum, which proctest the children programs, but it is approachable for everyone. The C-forms gives an opening gesture to the Malta School House, which is not yet built,

2,09

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+7,28 0,49

3,76

0,10

1,69

0,20

+6,98

LEIER LSK kéményrendszer

+6,15

1,71

Eternit Gotika szálcement hullámpala fedés

horganyzott acél szegélyelem

impregnált fa deszka 1,13

20/30 RR fa keretváz 0,81

1,80

20/30 RR fa keretváz +4,73

vályogtégla kitöltő falazat, közte RR fa keretvázak

+5,01 1,00

+4,73

1,60

3,13

20/30 RR fa keretváz

2,49

2,66

10/15 szarufák, közte Naturillo szálas hőszigetelés

2,20

+3,53

+3,40

16 cm nádpalló hőszigetelés építőlemez borítás

+2,45 +2,30 0,75

építőlemez borítás (öltöző fölött)

+2,07

zuhanyzó helyiség fölött Knauf Aquapanel, cementkötésű építőlemez +1,50

0,30

2,94

impregnált fa deszka

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2,92

+1,60 XPS lábazati hőszigetelés

0,49 +1,30

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0,10

alumínium ereszcsatorna 1%-os lejtéésel +2,20

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25 cm vasbeton lábazati fal lejtés miatt lépcsőzetesen emelkedve

11,42

2,10

7,37 3,76

+2,88 1,24 +2,45

25 cm vasbeton lábazati fal lejtés miatt lépcsőzetesen emelkedve

0,20

2,30

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2,30

0,49

1,80

0,60 0,25

+2,53

XPS lábazati hőszigetelés

+3,21

20/30 RR fa keretváz

0,89

1,00

15/10 fa gerenda, galéria tartószerkezete

21 cm nádpalló hőszigetelés vasbeton előtt felvezetve

horgányzott acél catornatartó profil +3,36

2,74 +3,21

belső korlát

0,30 0,30

+2,45

szarufákra merőleges 10/10 fa fűrészelt palló, a túlnyúlás biztosítására, közte Naturillo szálas hőszigeteléssel kitöltve

0,60

1,20

3,65

5/10 fapalló ellenléc, kiszellőző légrés

20/30 RR fa keretváz

1,69 0,40

+0,01

sportpadló

±0,00

-0,17 -0,32

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5,30

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6,80

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LEIER LSK kéményrendszer

+7,28

Eternit Gotika szálcement hullámpala fedés

szarufákra merőleges 10/10 fa fűrészelt palló, a túlnyúlás biztosítására, közte Naturillo szálas hőszigeteléssel kitöltve

11,24

Épületszerkezattan 8.

3,50

METSZET 1:50

focipálya és tornaterem a Monori telepen

Bárdossy Krisztina

B74EMW

0,36

konzulens: Kapovits Géza

2015.12.07.

8,00

0,40

0,05

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0,15

3,50

0,10 0,10 0,03

Naturillo szálas hőszigetelés

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1,74

+6,93

+4,38 1,20

6,80

0,05

+4,18 impregnált fa deszka

2,71

7,93 0,21 0,01

0,30 25 cm vasbeton lábazati fal

2,34

1,45

tárolószekrény helye

±0,00

-1,02

7,80 9,20

0,70

0,50

0,70

-0,52

-1,02

0,35

-0,17

-0,52

0,70

0,17

tárolószekrény helye

0,90

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2,00

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5,08

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0,24

0,21

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0,90

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2,48 2,03

2,03

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0,17 0,50

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3,50

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hőszigetelő üvegezésű fa nyílászáró

+1,50

XPS lábazati hőszigetelés

2,34

+2,53

3,51

1,06

áthidaló gerendák

0,20

0,25

0,16

3,30

2,34

0,20

0,16 0,16 0,16 0,16 0,16 0,16 0,16 0,16 0,16 0,16 0,16 0,16 0,16 0,16

3,30

4,79

0,20

2,24

2,31

2,88

2,88 2,88

16 cm nádpalló hőszigetelés

2,68

3,30

0,42 belső korlát

+3,40

nádszövetes vályogvakolat

0,20

5,85 2,21

1,00

vályogtégla kitöltő falazat, RR fa keretvázak között

0,16

0,20

1,39

impregnált fa deszka

Dance Studio No.18 Street Székely Bertalan, Budapest, Hungary komplex design consultants: Zsófia Dankó (general design), Zoltán Páricsy (construction) Andras Sipos (structural design) György Koncz (building technology) BME Department of Residential Buiding Designs (2015) My pre-diploma work was designing a contemporary dance studio from master plan to general layout and 1:5 detail design, containing every detail of the construction. The tasks also included finding the right location and a functional programme, finding the adequate materials. The site is a vacant lot in a densely populated district with a giant tree in the middle. Preserving this tree had an important role in this project. I divided the building into two parts, which creates an inner courtyard with the tree. We have to pass-by this garden to approach the entrance of the building, it reveals gradually, creating special atmosphere even before we get in.There are steel bridges creating the connection between the two parts in every floor.

Budapest, 18 Street Székely Bertalan

1. separate the unit by functions

2. make them connected

3. lift up for the street approach

1. 2.

inner courtyard dance studio

sections 1:50 1.

20,92

2,39

5,17

5,16

2,23

20,12

2,24

4,87

4,86

2,08

+19,49 15

2,39

5,17

5,16

2,23

fémlemez fedés

fémlemez fedés +18,44

+18,44

1,005

1 rtg 8 cm 1 rtg 10 cm 50 cm 5 cm 2 rtg 6 cm 10 cm

495

1,235

16 1,19

335

16 1,19

15 15

2,395

5,17

675

1,65

+15,71

1,285

2,23

1,475

+15,76

3,075

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2,08

méretezett acél rácsos tartó

10 cm 15 cm 2 rtg 10 cm 20 cm

méretezett acél rácsos tartó

2,395

5,17

2,245

4,87

3,77

5,165

5,16

1,12

4,86

315

1,08

5,00

3,945

5,135

5,00

méretezett acél rácsos tartó 15

1,08

1,22

2,23

4,865

2,08

1,20

1,005

1,08

1,485

2,14

2 cm 5 cm 20 cm 1cm

245

R5 20,12

fémkorlát

légrés dilatáció szoms zsalukő szigetelés tart modi XPS hab hőszigetelés é vasbeton teherhordó

R3 Kávézó padló

2,14

R5 40

műgyanta padló acélhajjal erősíte PE fólia technológiai s lépésálló expandált po vasalt alaplemez szerelőbeton modi aljzatbeton tömöríte terme

R2 Pincefal U= 0,333 W/m2K

2,485

méretezett acél rácsos tartó 6,635

2,23

16,015 +15,76

+15,76

1,515

5,165

5,16

205

3,90 +15,76

5,34

Rétegrendek R1 Pincepadló U= 0,352 W/m2K

335

1,295

parke aljzatbeton vasbeton teherhordó beltéri vakolat

R4.1 Általános fal U= 0,21 W/m2K = katalóg +12,84

8,5 cm 20,06

+11,94

+11,81

35 1,085

1,085

+11,25

monolit vasbeton fejlemezes gerenda 30/50

2,185

monolit vasbeton fejlemezes gerenda 30/50

4,87

+11,25

tükör monolit vasbeton fejlemezes gerenda 30/50

+10,53

+11,61

4,86

monolit vasbeton fejlemezes gerenda 30/50

monolit vasbeton 2,08 25 +10,53 fejlemezes gerenda 30/50

15 cm 5 cm 20 cm 1,5 cm

5,16

+9,03 52

5,165

2,23

13,74

2,40

1,02

fémkorlát

1,00

12,74

1,00

12 20

+7,46

+8,01

+7,81

1,08

+7,81

+8,01

+7,46

1,50

4,87

+7,81

+7,46

monolit vasbeton fejlemezes gerenda 30/50

+6,73

2,245

4,86

monolit vasbeton 2,08 25 fejlemezes gerenda 30/50

+6,73 4,865

4,865

2,40

5,17

3,90

2,36

2,08

3,90

2,91

5,165

5,16

4,095

1,10

3,965

1,10

4,645

2,23

1,10

1 cm 0,5 cm 5 cm 1 rtg 15 cm 4 cm 5 cm 16 cm

2,45

5,065

3,00

+4,33

+4,21

R11 Híd középső födém

+3,66

+4,01

+3,66 +3,66

2,245

1,50

675

monolit vasbeton fejlemezes gerenda 30/50 4,87

295

monolit vasbeton fejlemezes gerenda 30/50

4,86

monolit vasbeton KNAUF álmennyezeti rendszer fejlemezes gerenda 30/50 4,865

2,08

12,165

2,38

4,015

LEIER kéregpanel, 15 cm hőszigetelés gyárilag a hátoldalára ragasztva

1,50

675

3,325

2,395

14,545

+0,89

falazat nedvesség elleni szigetelésének felvezetett magassága

5,17

fémkorlát

2,23 +1,20

recepciós pult

5,575

1,50

4,525

+0,31 2,525

1,475

2,45

R3b

falazat nedvesség elleni szigetelésének felvezetett magassága

5,19

+0,31

1,07

13 20

-0,34

-0,14

13 20

-0,34

-0,14

változó 1 rtg 15 cm 4 cm 5 cm 16 cm

greslap burkolat vékonyágyas ragasztó polipropilén fátyolszö Schlüter Ditra Drain burkolható, kapillárisa polipropilén fátyolszö vékonyágy öntapadó bitumenes v Plus) lejtést képző aljzatbet PE tehnológiai fólia expandált polisz 4 cm hullámmagasság hidegen hajlíto IPE 160 acél főtartó

-0,14

1 cm 0,5 cm 1 rtg 0,8 cm 1 rtg 1 rtg 1 rtg

+0,90

1,30

4,525

R12 Híd „zárófödém”

LEIER kéregpanel, 15 cm hőszigetelés gyárilag a hátoldalára ragasztva

-0,01 -0,14

greslap burkolat ragasztóréteg aljzatbeton technológiai fólia expandált polisz 4 cm hullámmagasság hidegen hajlíto IPE 160 acél főtartó

6,245

2,48

+1,20

5,795

2,48

4,525

4,00

pult

5,165

5,16

+1,20

25 +2,09

konzolos elemekre szerelt pultasztal 15

2,10

3,79

4,145

+2,10

1 cm 0,5 cm 5 cm 1 rtg 15 cm 4 cm 5 cm 16 cm

+2,40

1,475

1,55

+3,66

4,015

monolit vasbeton fejlemezes gerenda 30/50

R5 14

1,305

1,915

+3,66

monolit vasbeton fejlemezes gerenda 30/50

greslap burkolat ragasztóréteg aljzatbeton technológiai fólia expandált polisz 4 cm hullámmagasság hidegen hajlíto IPE 160 acél főtartó

+4,33

12 20

+4,33

12 20

+4,33 +4,21

+4,33

szalagparke ke ék aláté kiporzást gátló alátét f aljzatbeton vasbeton lemez teher

1,50 +4,21

R9 Táncpadló

R10 Híd alsó födém

4,86

fémkorlát 2,395 +5,23

16,025

ke l szellőző alátét szőnyeg deszkázat hidegen hajlíto páraáteresztő aláté ásványi szálas hőszige párazáró aláté 4 cm hullámmagasság IPE 160 acél rácsostartó teherhord

2,5 cm 5 cm 4 cm 1 rtg 5 cm 16 cm

+7,46

monolit vasbeton fejlemezes gerenda 30/50

+6,73

3,48

monolit vasbeton fejlemezes gerenda 30/50

3,48

3,25

3,60

3,80

+7,81

+7,46

monolit vasbeton fejlemezes gerenda 30/50

4,345

t U = 0,191 W/m2K

0,7 mm 1 cm 2,5 cm 5 cm 1 rtg 20 cm 1rtg 4 cm 16 cm vált.

12 20

+8,01

+8,13 +8,01

R6 Nagyterem fölö 40 1,46

2,40

5,17

3,13

2,395

ásványi szálas hőszige zsaluzó kéregpanel vasbeton tűz- és teher javíto

3,485

3,25

3,60

3,80

3,25

Pilkington Pro légrés vasbeton falazat tartó javíto

R5 Tűzfal melle

+11,25

4,865

1,50

8,5 cm 45 cm 30 cm 1,5 cm

+11,61 1,085

+11,61

Pilkington Pro

R4.2 Általános fal (ahol végigfut mögö

135

135 20

-0,34

R13 Pincefal az udvar felé LEIER zsalukő elem 30

4,87

2,395

5,17

-0,69 4,865

2,08

monolit vasbeton fejlemezes gerenda 30/50 -1,52 5,165

5,16

2,23

1,005

20 2,44

555

-3,62

75 30

4,195

1,325

20 3,745

875

825 375

-3,62

-3,71

-4,18

8 mm 3mm 1 rtg 5-20mm 80 mm 1 rtg. 25 mm 25 mm 20 cm 1,5 cm

-4,22

15 50 10

-4,18

15 50 10 6

3,955 3,505

2,10

2,89

2,10

56 115

2,10

3,815

-3,62

földfeltöltés XPS hab hőszigetelés é modi bitumenes máz kellős vasbeton teherhordó javíto

R2 3,815

1,50

10 cm 2 rtg 1 rtg 30 cm 1,5 cm

R14 Vizes helyiségek padló rétegrendje

-3,71

Bárdossy Krisztina Kopmlex 2 GSEducationalVersion

monolit vasbeton fejlemezes gerenda 30/50 -1,52

3,28

-0,69 4,86

monolit vasbeton fejlemezes gerenda 30/50 -1,52

3,28

3,38

3,025

3,03

3,28

15 3,58

-0,69 30

monolit vasbeton fejlemezes gerenda-1,52 30/50

1,18

2,245

1,18

-0,69 14

monolit vasbeton fejlemezes gerenda 30/50

1,18

LEIER zsalukő elem

Tánciskola, Budapest

metszet M= 1 : 50

kerámia burkolat ragasztó kent vízszigetelés hasz lejtést adó cementhab aljzatbeton PE technológiai fólia ásványi szálas hőszige intstallációs réteg vasbeton födém belső vakolat

13,345

12,945

4,865

205

535

7,34

+19,49 5 15

2,225

+18,44

125

1,005

125

205

1,39

7,79

160 IPE acél fióktartó 13,18 5

160 IPE acél fióktartó

Rétegrendek R1 Pincepadló U= 0,352 W/m2K

160 IPE acél fióktartó 160 IPE acél fióktartó 160 IPE acél fióktartó

495

1 rtg 8 cm 1 rtg 10 cm 50 cm 5 cm 2 rtg 6 cm 10 cm

160 IPE acél fióktartó

4 cm hullámmagasságú trapézlemez alátámasztás

1,295

1,005

1,295

ásványi szálas hőszigetelés hidegen hajlított C acél profil közé helyezve

1,42

+16,72

12,18 5

1,235

+16,65

ereszcsatorna +16,52

6,23

+15,25

1,28

2,5 cm 5 cm 1 rtg 5 cm 20 cm 1cm

11,43

nyitható nyílászáró

8,5 cm

+10,25

1,39

205

125

1,39

205

monolit vasbeton fejlemezes gerenda 30/50

AQUAPANEL borítású gipszkarton előtétfal

195

2,35

LEIER kéregpanel, 15 cm hőszigetelés gyárilag a hátoldalára ragasztva

125

1,39

205

205 68

3,805

3,48 1,00

+7,81

16,655

12 20

monolit vasbeton fejlemezes gerenda 30/50

KNAUF álmennyezeti rendszer

1,005

125

1,39

205

5 12

12 20

+4,21

20 2,80 R5

2,355

20,74

3,80

1 cm 0,5 cm 5 cm 1 rtg 15 cm 4 cm 5 cm 16 cm

+3,09 8,445

1,915

KNAUF álmennyezeti rendszer 3,365

monolit vasbeton fejlemezes gerenda 30/50

+3,00

30 monolit vasbeton fejlemezes gerenda 30/50

Pilkington Profilit kopolit üvegpanel

SCHÜCO ASS 70 tolóajtó (300/300)

25 25 40

4,345

4,01

3,00

4,145

4,015

125

3,355

125

3,355

125

+0,90

8,62

69 315

8,62 8,62

16 375

1 rtg 1 rtg 1 rtg

+0,31 R14

13 20

2,46

Thermowood terasz

-0,01 -0,34

változó 1 rtg 15 cm 4 cm 5 cm 16 cm

-0,14

-0,35 20

3,365

265 20

3,365

1,125

monolit vasbeton 20 fejlemezes gerenda 30/50

7,22

3,365

1,125

7,22

LEIER zsalukő elem 10

365

8,445

földfeltöltés

10 cm 2 rtg 1 rtg 30 cm 1,5 cm

4,08

3,58

3,85

3,26

3,28

12,11

R13 R2

: SBS, ragasztható, burkolható felüle

R13 Pincefal az udvar felé monolit vasbeton fejlemezes gerenda 30/50

3,58

3,28

3,38

3,58

465

greslap burkolat vékonyágyas ragasztóhabarcs polipropilén fátyolszövet Schlüter Ditra Drain burkolható, kapillárisan passzív többrétegű drénlemez polipropilén fátyolszövet vékonyágyas ragasztóhabarcs öntapadó bitumenes vastaglemez csapadék vízszigetelő réteg (modi Plus) lejtést képző aljzatbeton PE tehnológiai fólia expandált polisz l 4 cm hullámmagasságú trapézlemez hidegen hajlíto IPE 160 acél főtartó

13,345 10

greslap burkolat ragasztóréteg aljzatbeton technológiai fólia expandált polisz l 4 cm hullámmagasságú trapézlemez hidegen hajlíto IPE 160 acél főtartó

R12 Híd „zárófödém” 1 cm 0,5 cm 1 rtg 0,8 cm

fali csempe a pult fölött 3,355

2,10

2,10 13 20

13 20

9,31

+1,50

125

csempe az ajtó felső síkjáig felvezetve 15

falazat nedvesség elleni szigetelésének felvezetett magassága

3,355

greslap burkolat ragasztóréteg aljzatbeton technológiai fólia expandált polisz l 4 cm hullámmagasságú trapézlemez hidegen hajlíto IPE 160 acél főtartó

+2,10

3,00

LEIER kéregpanel, 15 cm hőszigetelés gyárilag a hátoldalára ragasztva

+2,10

4,345

4,145

4,015

4,145

4,345

AQUAPANEL borítású gipszkarton előtétfal

szalagparke ke ék aláté kiporzást gátló alátét fólia aljzatbeton vasbeton lemez teherhordó szerkezet

R11 Híd középső födém

+4,01

1,33

16,025

3,48

13,06

2,5 cm 5 cm 4 cm 1 rtg 5 cm 16 cm

1 cm 0,5 cm 5 cm 1 rtg 15 cm 4 cm 5 cm 16 cm

+4,33

+3,50

2,80

12,945

t ke l szellőző alátét szőnyeg deszkázat hidegen hajlíto / átszellőztete páraáteresztő aláté ásványi szálas hőszigetelés hidegen hajlíto párazáró aláté 4 cm hullámmagasságú trapézlemez alátámasztás IPE 160 acél rácsostartó teherhordó szerkezet

R10 Híd alsó födém

7,79

3,60

3,48

7,875

125

R6 Nagyterem fölö 0,7 mm 1 cm 2,5 cm 5 cm 1 rtg 20 cm 1rtg 4 cm 16 cm vált.

2,225

+4,21 +4,01

akusztikailag szigetelő gipszkartonfal

205

1,39

125

1,33

1,005

R14

7,24

8,445

125

monolit vasbeton fejlemezes gerenda 30/50

1,01

1,20

2,225

2,40

3,80

3,36

ásványi szálas hőszigetelés kéregpanelre ragasztva és mechanikailag rögzítve zsaluzó kéregpanel vasbeton tűz- és teherhordó fal javíto

R9 Táncpadló

+7,14

bevilágító a folyosóra

+6,45

3,365

csempe az ajtó felső síkjáig felvezetve

40 5

1,39

Pilkington Profilit kopolit üvegpanel

125

3,48

+6,45

435

+8,01 1,00

+7,81

7,40

20 2,35

1,08

+7,30

3,60

1,015

1,01

+8,12

+7,81

+8,13

13,185

R14

+8,01 7,40

12 20

13,07

+7,46

15 cm 5 cm 20 cm 1,5 cm

7,79

7,875

3,60

125

1,005

2,80

1,005

125

2,80

125

2,345

8,445

2,80

csempe az ajtó felső síkjáig felvezetve5 2,34

3,485

3,80

akusztikailag szigetelő gipszkartonfal

2,40

40 5

3,80

R5 Tűzfal melle

monolit vasbeton fejlemezes gerenda 30/50

+10,25

3,365

16 mm vastagságú Lumira aerogél transzparens hőszigeteléssel )

Pilkington Pro 16 mm vastagságú Lumira aerogél transzparens hőszigeteléssel légrés vasbeton falazat tartószerkezet javíto

8,5 cm 45 cm 30 cm 1,5 cm

nyitható nyílászáró

2,40

3,485

1,39

125

+10,94

KNAUF álmennyezeti rendszer AQUAPANEL borítású gipszkarton előtétfal

3,60

125

+11,59 R4

bevilágító a folyosóra

Pilkington Profilit kopolit üvegpanel 195

2,35

3,80

435

+11,26 1,085

1,085

2,35

R4.2 Általános fal (ahol végigfut mögö

+11,61

+11,31

+11,13

135

+11,81

135 20

+11,81 +11,61

Pilkington Pro

+11,99

135 20

135

+11,94

parke aljzatbeton PE fólia installációs réteg vasbeton teherhordó lemez beltéri vakolat

R4.1 Általános fal U= 0,21 W/m2K = katalógus adat

13,345

12,945

LEIER kéregpanel, 15 cm hőszigetelés gyárilag a hátoldalára ragasztva

R3 Kávézó padló 4,71

4,58

11,43

3,09

4,71

12,86

5 15

3,09

3,58

3,77

4,075

5 15

légrés dilatáció szomszéd felől zsalukő szigetelés tartó fal modi XPS hab hőszigetelés és szigetelésvédelem vasbeton teherhordó fal gle

5,34

5,00

5,135

5,34

10 cm 15 cm 2 rtg 10 cm 20 cm

+15,05

LEIER kéregpanel, 15 cm hőszigetelés gyárilag a hátoldalára ragasztva

R2 Pincefal U= 0,333 W/m2K

Pilkington Profilit kopolit üvegpanel

3,09

6,635

1,485

acél rácsostartó teherhordó szerkezet gipszkartonfal visszakötése a szerkezetbe R5

fémlemez takaróelem 1,485

12,18

+15,76

425

1,485

1,27

Leier egy. kéregpanel, külső oldalára gyárileg ragasztott hőszigeteléssel

műgyanta padló acélhajjal erősíte PE fólia technológiai szigetelés lépésálló expandált polisz vasalt alaplemez szerelőbeton modi aljzatbeton tömöríte terme

földfeltöltés XPS hab hőszigetelés és szigetelésvédelem modi bitumenes máz kellősítés vasbeton teherhordó fal gle javíto

R14 Vizes helyiségek padló rétegrendje 12,975

Austrotherm szigetelés, vízszigetelés védelme

50 23

50 12

50 12 23

50 12 4

8 mm 3mm 1 rtg 5-20mm 80 mm 1 rtg. 25 mm 25 mm 20 cm 1,5 cm

kerámia burkolat ragasztó kent vízszigetelés használa l lejtést adó cementhabarcs aljzatbeton PE technológiai fólia ásványi szálas hőszigetelés úsztato intstallációs réteg vasbeton födém belső vakolat

225

10 15 50 65

10 45 47 6

4 225

10 15 50 65

-4,18

-3,60 -3,71

Bárdossy Krisztina Kopmlex 2

Tánciskola, Budapest

metszet M= 1 : 50

Lakóépülettervezési tanszék

2015.12.21.

, pl.: Polys

working drawings and general layouts 1:50

ground floor plan

first floor plan

second floor plan

third floor plan

Detail design For me dance is something very physical, corporeal and raw, but it is full of lightness, emotions and it is airy, floating and flowing in teh same time. This duality was a defining point during the whole process of planning.

GSEducationalVersion

I’ve choosed to create the facade with profiled U-glass and figure out the constructional details. With this material I made transparent (windows), semi-transparent (just the hidden eaves detail 21.-26.. Híd rétegrendek és axonometrikus ábrák profile glass) and non-transparent (wall and profile glass) surfaces. This system helped me to let in enough light but give the dancers enogh discretion to prevent them from unwanted bystanders. It also gives the building a lightless, floating sensation, waht was my goal. Bárdossy Krisztina KOMPLEX2

Tánciskola, Budapest

GSEducationalVersion

M = 1 :10

csomópontok M = 1 : 10 Bárdossy Krisztina Tánciskola, KOMPLEX2

ridge detail

Budapestkonzulens: Páricsy Zoltán

2015.12.21. csomópontok M = 1 : 10

GSEducationalVersion

I think that the final beauty of a building greatly lies on the development of the details and the use of materials. I made for this plan 25 details in a scale of 1:5, to give an answer to all the arised contsructional questions.

top bridge detail

covered bridge detail

konzulens: Páricsy Zoltán

2015.12.21.

R4 Általános fal 8,5 cm

45 cm 30 cm 1,5 cm

Pilkington Profilt K 32/60/7 üvegpanel 16 mm aerogél, fényáteresztő hőszigeteléssel kiegészítve légrés, szerelő/szervíz csatorna vasbeton falazat tartószerkezet javított mészvakolat, festés

R13 Pincefal az udvar felé

10 cm 2 rtg 1 rtg 30 cm 1,5 cm

Bárdossy csomópontok Krisztina M = 1Tánciskola, : 10 KOMPLEX2

Tánciskola, Budapest

Budapest konzulens: Páricsy Zoltán

földfeltöltés XPS hab hőszigetelés és szigetelésvédelem modifikált bitumens vastaglemez talajnedvesség elleni szigetelés bitumenes máz kellősítés vasbeton teherhordó fal glettelve festve javított mészvakolat

Bárdossy Krisztina KOMPLEX2

GSEducationalVersion

Tánciskola, Budapest

csomópontok M = 1 : 10 2015.12.21.

konzulens: Páricsy Zoltán

Bárdossy Krisztina KOMPLEX2

GSEducationalVersion

terrace doors detail

a, vízszintes metszet

U-glass/window deatail

M 1 : 10 üveg és nyílászáró váltása, vízszintes metszet 01.= Kopolit

M = 1 : 10

02. Általános vízsintes metszet tömör szerkezet előtt

konzulens: Páricsy Zoltán

Tánciskola, Budapest

U-galss semi transparent detail GSEducationalVersion

03. Szomszédos épület melletti sarok, vízszintes metszet

2015.12.21. csomópontok M = 1 : 10

konzulens: Páricsy Zoltán

U-glass/concrete wall vertical and horizontal details

M = 1 :10

SIDE-A (EXTERIOR)

R4 Általános fal U= 8,5 cm

45 cm 30 cm 1,5 cm

R4 Általános fal U=

R5 Tűzfal melletti fal

8,5 cm

16,5 cm 15 cm

45 cm 30 cm 1,5 cm

5 cm 20 cm 1,5 cm

Bárdossy Krisztina KOMPLEX2

GSEducationalVersion

horizontal U-glass details and corner detail Bárdossy Krisztina KOMPLEX2

GSEducationalVersion

Tánciskola, Budapest

Krisztina csomópontokBárdossy M = 1 : 10 KOMPLEX2 GSEducationalVersion

konzulens: Páricsy Zoltán Tánciskola, Budapest

2015.12.21.

csomópontok M = 1 : 10

légrés dilatáció a szomszéd felől ásványi szálas hőszigetelés kéregpanelre ragasztva és mechanikailag rögzítve zsaluzó kéregpanel vasbeton tűz- és teherhordó fal javított mészvakolat

Tánciskola, Budapest

csomópontok M = 1 : 10

konzulens: Páricsy Zoltán

dilated bridge connection to the building detail

konzulens: Páricsy Zoltán

2015.12.21.

plan of the original state FELÜLET KEZELÉS:

MEGJEGYZÉS:

10,0

119,5

64,5 253,5

90 2,50

KIS SZOBA parketta 5,81 m2

70 2,10

105,0

55,5 10,0

10,0

224,5

255,0

30,0

ERKÉLY beton 1,31 m2

90 2,10

186,0

KÖZLEKEDŐ parketta 7,23 m2

154,0

ANYAGOK:

70 2,101:60

86,5

216,0

LÉPTÉK:

118,0

TERVEZETT ALAPRAJZ

107,0

87 1,70

85,5

75,0 10,0 WC kerámia 0,85 m2

RAJZ:

21,0

KONYHA kerámia 8,14 m2

14,7

JEL:

LAPMÉRET:

223,0

15.2.2016

171,0

DÁTUM:

52,0

876,0

383,0

120,3

65,0

70 2,10

231,0 90,0

27,0

114,0

45 1,05

70,0

10,0

62,5

MEGRENDELŐ:

369,5

90 2,10

8,5

80 2,30

498,0

10,0

30,0 60,5

93,0

LAKÁSFELÚJÍTÁS

LÉPTÉK:

TERV:

MEGLEVŐ ALAPRAJZ

BP. XIII. Hollán Ernő utca 46.

gipszkarton kiegészítés

FÜRDŐ kerámia 4,38 m2

81 2,13

48 1,06

68,0

180,4

10,0

82 2,13

SZOBA parketta 8,14 m2

70 2,10

129,5

120,0 90,0

40,0 60,0 250,0 KONYHA kerámia 7,80 m2

40,0 90 2,40

ERKÉLY beton 1,31 m2

B1 112,0

30,0

H 14,7

90 2,10

GÁZ

ELŐSZOBA parketta 7,62 m2

GSEducationalVersion

60,0

90,0

WC kerámia 0,85 m2

72,5

31,0

87 1,70

87,0

65,0

383,0

ÉTKEZŐ-NAPPALI parketta 14,72 m2

85,5

plan of the reconstructed state

70,0

60,0

60,5

90 2,40

5,0 15,0 2,4 5,0 gipszkarton borítás fehérre festve fehér fém lemez lábazattal 5,0

178,2 HÁLÓ SZOBA parketta 19,89 m2

5,0 1,3 1,3

240,0

302,5

pm. 80

8,5 1,50 1,60

ERKÉLY beton 2,78 m2

146,0

2 MB

58,5

5,4

41,0

1,3 5,0

10,046,3 1,0

1:60

154,0

DETRE KATALIN

pm. 80

GSPublisherEngine 0.0.100.100

CÍM:

MEGRENDELŐ:

KIVITELI TERV

pm. 1,08

63 m 2

116,0

TERV:

LAKÁSFELÚJÍTÁS

Designing our first appartement from the very beginning till the last screw, whitnessing the whole contsruction, consulting with technical specialists, organising the whole process by ourselves - it had showed our little team a lot of new aspects and of architecture and practicals.

78,5 KAMRA kerámia 1,33 m2

192,7

88,0

90 2,50

8,5 MUNKA:

This appartement in a 1930’s buildinghadn’t been renovated for 20 years before we started to work with it. The goal was to bring in as much light as possible - as the flat is on the first floor, but also rearrange and separate the spaces and rooms to serve the functional needs of a young couple, who are planning to have their first baby in the next few years and have an active social life.

10,0

302,5

240,0

400,0

partner: Dániel Illés Pálfi general constructor: Katalin Detre (2015-2016)

NAGY SZOBA parketta 34,94 m2

202,0

1,50 1,70

178,0

FÜRDŐ kerámia 2,88 m2

55,0

8,5

70 2,10

ERKÉLY beton 2,78 m2

47,0

10,0

110,0

58,5

Budapest, Hungary 39. Street Hollán Ernő

184,0

41,0

Appartement renovation at Street Hollan

DÁTUM:

2015.03.28.

FELÜLET KEZELÉS:

MEGJEGYZÉS:

Version gine 0.0.100.88

30cm gipszkarton kiegészítés

'L' vas lakatos szerkezet

Gipszarton 50x50mm CW + UW profil

living room

kitchen

parketta szegély

plan of the separatin element

alu lemez szegély fehérre festve

dormitory

Bóta-net Hellowood summer workshop Csórompuszta, Hungary group leaders: Áron Losonczi (Litracon), Bence turányi (t2a architects) group members: Krisztina Bárdossy, Borbala Huszanyik, Fanni Kárpáti, Mate Molnar, Mátyás Papp (2012) The installation was bulit up in the immediate surroundings of the church of the little village, Borsodbóta, on a small hill. Our goal was to create a very lightweight construction to overlay and to gently assign this spot of the village and to encourage people to sit down here to enjoy the beautiful landscape of this countryside. We created a net-system where bending holding elements are holding large wingspan without additional support. A holding element’s length is 3,00 m, and each of them are holding an other and being held by a third one in the same time. This system creates a statically advantegeous wooden fabric. According to its scale the material needs are very low, and preparing the wooden elements resuts almos no wood waste. It’s easily transportable and re-buildable, and with combining the elements it can be jauntly converted to other places or environments.

one unit

Each unit is built up out of three battens and the separating supports inbetween them. The two upper layersâ&#x20AC;&#x2122; size is 4 x 2 cm, the bottom oneâ&#x20AC;&#x2122;s is 4 x 4 cm. This differentiation was made to save materials, to facilitate the construction and to help with the curving works of the units. The separating supports increase the amount of inertia and they creates a joining hole where an other unit can connect.

three units connected

Three units can be connected into a triangle and they stabilize each other. Each of them is being held and helding an other. The strucure let us to create a wooden fabric.

fireNest_HelloWood

fireNest Hellowood summer workshop, Csórompuszta, Hungary group leaders: András Cseh (CZITA), Bálint Veres (MOME) group members: Krisztina Bárdossy, Bence Kovacsik, Borbála Lenkai, Sara Weichinger, Zsolt Sarkadi, David Vass, (2013)

The motto of the camp was “Step closer”, and the gain was creating installations which bring closer people, nature and architecture towards each other. Our conception was creating a fireplace, which is a really symbolical community event . One of our top goal was to democratize the fire, giving the same experience for people in the second or third row like in the first and strenghten the feeling of community. We created a module system and each element alone itself is not stabile, just when it relies on an other. In the end they close up in an octogon which stabilize the system. Each element can be connected to others in different ways, which let us creating 3 different high levels of sitting. This system creates its an amfiteartrum around the fire letting all the people to see the fire, enjoy the heath and exlude the world outside the campfire.

ForceFields_HelloWood

ForceFields Hellowood, Csórompuszta group members: Katalin Boromissza,

Jaeseo Jung, Piotr Kluszczynski, Máté Kudar, László Tamás, Fabian Villányi, Bartosz Zabiega group leader: Biayna Bogosian (Columbia University GSAPP, New York)

(2014)

In 2014 Hellowood camp focused on BALANCE. We teamed up with Biayna Bogosian, who is specialized on parametric architecture and data-based forms. Our concept was to create a system, which is able to adapt to the changing needs, freely variable and can re-find balance again and again by changing its form. We created a lookout island where a group of 10 people can spend time watching the beautiful landscape around. The construction is made of round bars and wood boards perforated by circular holes. The bars are not mechanically attached, they are fixed by their own clamping length as an equilibrium state. It creasts a forest-like installation where by vvariating the lengths and the positions of the bars we can create different kinds of space situations depending on our needs. The bars stay intact, so they are reusable, and it’s easily can be rebuilt.

Fireplace for Boisbuchet one-week summer building workshop in association with the Vitra Design Museum and Centre Georges Pompidou Boisbuchet, Poitiers, France leaders: Alvaro Siza Vieira, Carlos Castanheira (2015) Nowadays, Boisbuchet offers one of the most versatile and distinguished workshop program on the international design agenda and in 2015, on its 25th anniversary, it focused on â&#x20AC;&#x153;Design and Communityâ&#x20AC;?. For the workshop where I applied, Alvaro Siza teamed up with architect Carlos Castanheira. Their brief for Boisbuchet was a new fireplace as a permanent outdoor installation for communal use. The tasks of this workshop included finding the right location, determining the adequate materials and defining the design. Also the physical realization had an important role of the design process and we built it up through teamwork. We tried to make very small interventions to avoid wounding the nature. We made two project using the most basic geometral forms: the square and the circle.

Parametrical architecture

Parametric architecture

one semester and two workshops to examine data-driven geometric forms ENSAL, Lyon, France group members: Khadija Agha, Illaria Giachi, Hannin Nimri, Daniel Stephany, Jakub Vagner consultants: Marian Janda, HervĂŠ Lequay, Walter Piccoli (2013)

During my semester at ENSAL I focused on the parametrical architecture. I used Rhinoceros and a plug-in called Grasshopper. Here the geometries of a shapes or surfaces are based on numeric relations, using parametrically defined networks. The task was to create flexible models, so the different geometric versions could be easily tested or phisically modelled with the a help of a laser cutter. After examining the forms we built up a 1:1 modell from plastic boards, the coupling elements were 3D printed. I think it was important to experience the possibilities and the limits of this kind of design approach. We also attached a special open-data source to this numeric network and sencors that adapt and react to the real environment, in our case it was the noises of a street during a whole day to examine data-driven amorphous forms.

Photography