Mateusz Płoszaj-Mazurek - Architectural Portfolio by manastudio

Architectural portfolio Table of contents Curiculum Vitae

Public library

4-5

Multistorey housing in Horsens, Denmark

6-8

Multistorey housing in Horsens, Denmark - specialization

Street furniture in Horsens

10-11

Arthauss - modular house competition

12-13

Multi-story housing in Warsaw

14-15

Tower construction

Hasselblad shop interior

DSGNRT.net - architectural webpage

MANA studio

Radom - Urban Masterplan

Other works

Road to Freedom

Curiculum Vitae Personal information Name: Date of birth: Place of birth: Adress: Phone number: E-mail:

Mateusz PĹ&#x201A;oszaj-Mazurek 26.08.1991 Lublin (Poland) Olbrachta 118b/34 01-373 Warsaw, Poland +48695577433 mailingbot@gmail.com

Work Experience 2010-2013

Assistant in DOMIN Architectural Drawing Studio

2011

Award in Steel furniture contest organized by KS MAKĂ&#x201C;W, Polish steel working company Award in Graphic Design Contest organized by Gurupa.pl

2012 20122012-2013

Education

Creating and developing with Natalia Okolus DSGNRT - Web Magazine about architecture and design - www.dsgnrt.net Computer Graphics Assistant in DOMIN Architectural Drawing Studio Internship on building site and in PERI - concrete working company

2010-07.2014

Architecture and Urbanism, Warsaw University of Technology

2012

2013

Constructing Architect, Via University College, Horsens

2012-

Created MANA Studio with Natalia Okolus - designing furniture for Woodyoulikeit.eu / visualizations / competitions

7.2012-9.2012

Architectural Internship in SAMI Achitekci, Warsaw (Multi-storey housing project)

2013

1st prize - Street furniture competition, Horsens,Denmark (project done in collaboration with Natalia Okolus), our bench is being made by Learnmark, and will stand in the city during summer 2013

2013

2nd prize - Arthauss modular house competition (project done in collaboration with Natalia Okolus)

2013

1st prize from student voting / 3rd prize from professional jury - Multi-storey housing proposal, Via University, Horsens, Denmark (Team project)

Languages Polish English German French Danish

Native Perfect Good Good Basic

Skills Drawing and painting skills confirmed by many group and solo exhibitions Computer skills graphics: Adobe suite (Photoshop, Illustrator, InDesign) - perfect drafting: Autocad, Revit - very good modeling & rendering: Sketchup + Vray, Grasshopper - prefect 3dsmax, Rhinoceros - good

8.2013-12.2013 Practical placement at Grupa 5 architekci - one of the best known architectural offices in Poland

school project/2014 Public library is a project developed during 7th semester at Warsaw University of Technology. What should contemporary public library look like? This is the question I tried to answer in this project. The library today is no longer a place for books. When people want to search for information, they can do it much faster via internet. This is why today the library should focus on the people, not on the books. The library space is divided into two areas: loud and silent. Most of the actions can be done in the loud space. You can use the cafeteria, search for books, sit and read and much more. The silent area consists of glass cubicles placed among the loud area. This makes the people to mix with each other and creates more meeting points - almost everywhere around the library!

2014 Public library in Warsaw

Silent area Loud area

AUTHOR Mateusz PĹ&#x201A;oszaj-Mazurek

95% reflected

30% reflected

Facade system

The responsive facade system is made out of bricks mounted on steel tubes. They are controlled by a computer that regulates sunlight intake. The simple rotation changes the amount of sunlight from 95% to only 30%.

2013 Public library in Warsaw

Presentation Board

210x100cm

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

E Z I R P

rd 3 & t 1s The main idea about the project was to fit it in the surroundings: small Danish city of Horsens. The area consisted of small houses and small buildings, there was no place for a big biulding here. We decided to make the building look smaller by dividing it into few visual parts. Additionally we wanted to make this building look like a set of smaller houses.

Responsibilities: Developing the project from scratch until finish. Concept idea, architectural drawings, sketches and visualizations. Time period: Concept: 1 month Technical drawings: 3 months

Østergade

D E

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

school project

2013

We wanted to achieve a feeling of “privacy gradient”. The area near the road should be a public space that is it able to be used by anyone, not only by the people living there. This should be the place where habitants meet the other people. Next we have the central plaza with a tree. This is the place where the both staircases meet. This creates a place where every habitant living here would meet when going to work or school. This is the place where everybody says “Hi!” to each other.

I H

A B C D E F G H I

parking (35 built) shop enterance bike sheds meeting point staircases additional parking places (18 unbuilt) playground recreation area private gardens elevator flat and staircase enterances parking enterance

1:50

Project developed during the 6th semester at VIA Univerisity College in Horsens. Project was awarded 1st prize in student voting and 3rd prize by professional jury. PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

2013 Multi-storey housing in Horens, Denmark - awarded school project

Plan - second floor

The main module is the same for smaller and bigger apartment and also the main layout of them is identical. In bigger apartment we are simply adding one room

TEAM Mateusz PĹ&#x201A;oszaj-Mazurek Natalia Okolus Panna HetĂŠnyi Andrea Munteanu

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Apartment Layout

Interior design

Proposed interior design consists of simple furniture. The building has windows site plan on east and west sides, with bedrooms on the east side and living rooms on the west.

2013 Multi-storey housing in Horens, Denmark - awarded school project Air tightness Correct air tightness should be

Mainetance Builidng component mainetance

Technical section

One of 2 detailed sections. The building was constructed using prefabricated materials - slabs and walls.

Load transferrance 150 mm external wall transfer all the load. The 220mm deck element's load is carried by the wall - therefore it is needed for the deck element to have overlap of at least 65 mm, to avoid cracks.

Buildability The prefabricated lightweight concrete elements makes building construction much faster and easier.

4mm wall ties inserted at inervals of 0,5 m Windows: every 6th course We are using windows and balcony door from Velfac- Velfac 200i collection and from windows 13 from Velux V21 gzl- for sloped wall. All windows and balcony doors are aluminium./ wooden construction 14 Curtain wall: In the commerce area there is a curtain wall.

One of 27 details. This detail shows connection between prefabricated slab and wall.

Basement wall 1. 300 mm cast in situ concrete 2. 200 mm hard insulation 3. 2 layers of bitumen felt covering Basement slab 4. 150 mm leca clinkers 5. 350 mm hard insulation 6. 150 mm cast in situ concrete 7. DPM 8. 50 mm cast in situ concrete Foundation 9. 1000x500 mm cast in situ concrete foundation 10. Gravel 11. 110 mm drain pipe 12. reinforcement (according to consulting enginer)

UNIVERSITY COLLEGE SCHOOL OF TECHNOLOGY AND BUSINESS -

3. Sound demands Traffic sounds = 30 dB Actual Reduction traffic sounds = 46 dB Airbone sound = 40 dB

2. Fire demand REI60 A2-s1,d0 Actual: REI120 A2-s1,d0

2. Fire demand: R30 Actual: R30 A2-s1,d0

Apartment separating walls 1. Construction: -180 mm concrete

8 17

Appearance Floor's finish is 8mm laminated floorboards. Ceilings are already painted deck elements. Black bricks brings elegance to the builing.

2. Fire demand a) Load bering walls: REI60 A2-s1,d0 Actual: REI120 A2-s1,d0 b) Non load bering walls: REI60 A2-s1,d0 Actual: REI60 A2-s1,d0

7//soft plywood 22mm 8//batten 45x95mm 9//soft plywood pieces 100x100x10mm x2 10//bitumen layer 11//soft insulation 100mm ROCKWOOL 12//hollowcore slab 220mm 13//cast in situ concrete 14//reinforcement 15//reinforcement 16//reinforcement 17//foam 4mm

Sound conditions Sound demands for the storey partition Airborn sounds = 55 dB Impact sounds = 53 dB

Roof: 1. Construction: - bitumen felt cover - 15 mm plywood - 25 mm underlay - 63x150 mm rafter - 36x125 mm truss - 125 mm insulation - 2x 245 mm insulation - 38x 54 mm battens - 12.5 mm gypsum board

Slab/wall detail

1//elevation bricks 108mm 2//insulation 220mm 3//prefabricated concrete 4//skirting board 5//laminated floorboards 8mm

Fire conditions The fire demands for the storey partition = REI60 A2-s1,d0 The fire demands for the external wall = REI60 A2-s1,d0

Internal walls: 1. Construction a) Load bering walls: 180 mm concrete b) Non load bering walls: - 2x12.5 mm gypsum board - 50 mm insulation + aluminium frame - 2x 12.5 mm gypsum board

PROJECT:

Multi-storey housing

DATE: 05/28/13

SUBJECT:

External wall/Slab connection

SCALE:

1:5

Mateusz Płoszaj-Mazurek

CLASS:

CAHS42

DRAWN BY:

Horsens

Strorey partition in wetroom: 1// Construction: -10 mm ceramic tiles 150x150 -5 mm mortar( glue) for tiles Universalfix -1 mm Alfix sealing membrane -screed with a slope 70 mm -hard insulation 55mm of expanded polysteryne from Sundolitt -hollow core slab 220 mm

2//Fire demands: Demand:REI60, A2-s1,d0 Actual: REI60, A2-s1,d0

3//Sound Airborn sounds - 55dB impact sounds - 53 dB Actual Reduction airborn sounds - 55dB reduction impact sounds- 58 bB

U value: Demand: 0,5 W/m2K Actual : 0,5 W/m2K

015

2013

119

021 022 07 Roof

18000

2//Fire demands: Demand:REI60, A2-s1,d0 Actual: REI60, A2-s1,d0 3//Sound Airborn sounds - 55dB impact sounds - 53 dB Actual Reduction airborn sounds - 55dB reduction impact sounds- 58 bB There is no U-value demand

Staircase It is designed as almost separated construction. Prefabricated stairs from DALTON are running around the elevator shaft to minimize the area of the whol e staircase The slabs are hanging on the external walls and on the wall of garbage chute. Sound All the joints are supported by neoprene layer making sure that sound transmission is minimized. As the staircase i n an unheated space, there is an insulated wall between staircase and the rest of the building. It doesn't let any sound from staircase to influence the flats area

Staircasse roof construction: hollow core slabs 180 mm concrete screed to create slope bitumen felt cover Fire demands: R30

016

External plaster wall 1. Construction: -plaster layers 14mm -soft insulation 320 mm -adhesive 10 mm inner wall 150 mm concrete

External brick wall 1// Construction: -outer layer 108 mm brick -insulation 220 mm -inner layer 150 mm concrete 2// Fire demands: -BR - R30 -Actual - R120 A2-s1,d0(brick finish) 3// U-value -demand 0,15 W/m2K -actual 0,12 W/m2K 4//Sound Traffic sound demands:30 dB Sound reduction from wall 60 Actual: 0 dB

Strorey partition with wooden floor: 1// Construction: -laminated floorboards 8 mm -foam 4mm -plywood 22mm -battens 45x95 mm -soft insulation ROCKWOOL 100 mm -plywood pieces 10x100x100 x2 bittumen plate 100x100x2mm -hollow core slab 220 mm

009

3. Sound demand Airborn sounds = 55 dB Impact sounds = 53 dB Actual According to SBI 216 Chapter 6.4 Indoor Climate – Acoustics, a 180-250 mm concrete wall should fulfill these demands. A 180 mm concrete wall was chosen.

020

013

VIII

07 Roof 18000

Ceiling: 1. Construction: - 270 mm steel hangers - 25 mm steel profiles - 14 mm gypsum boards

2780

05 3rd floor

04 2nd floor

15000

3000

2770

2629 411.91

2770

007

371

12000

012

2629

003

Cast in situ concrete

4010

External plaster wall 1. Construction: -plaster layers 14mm -soft insulation 320 mm -adhesive 10 mm inner wall 150 mm concrete

2629

Legend:

04 2nd floor

garbage chute steel pipe diameter 300 mm fixed to the slab

Private balcony: - separating walls: laminated boards - steel railing - 180 mm concrete

001 VI

2629

Non load bearing light partition walls 05 3rd floor 15000 1// Construction: -2 layers of gypsum boards 12.5 mm x2 -aluminium frame, C profiles 50 mm -mineral wool 50 mm -2 layer of gypsum boards 12.5 mm x2

Balcony doors: Velfac 231i

2500

2339

2780

002

2339

school project

Prefab concrete

12000

011 014 2629

2629

2339

004

2629

Plaster/Gypsum

Plywood

Level 25

6000

9000

371

Level 25 Wood

9000

018

019 02 Groundfloor, terrain

6000

2629

005

Ground floor terrace: - wooden boards - battens - small concrete foundation - gravel

III

008

2770

017 Leca clinkers / Gravel

2629

2758

2455

2759

Steel

III

02 Groundfloor, terrain 6000

Soil

Tiles

006

010

Glue/Mortar

01 Basement

00 Foundation

3000

Foam 2350

2350

Brick

Internal foundation 380x500 mm cast in situ concrete Soft insulation

Hard insulation

Basement slab 1. Construction: - 150 mm cast in situ concrete - 350 mm hard insulation - 150 mm leca clinkers

Foundation Construction: - 700x500 mm cast in situ concrete

2. U-value demand: 0.10 W/m2K Actual value: 0.07W/m2K

UNIVERSITY COLLEGE SCHOOL OF TECHNOLOGY AND BUSINESS -

Bitumen felt DPM

PROJECT:

Multi-storey housing

DPC

SUBJECT:

section B

DRAWN BY:

2013 Multi-storey housing in Horens, Denmark - awarded school project

Natalia Okolus, Mateusz Płoszaj Mazurek

Horsens

DATE: 05/14/13

007

ensured when designing element connections

Specialization

Last month of the project were devoted to the individual specialization.

should be included in choosing design solutions

SPECIALIZATION

PRIVATE BALCONY

Axonometry

Axonometry shows the correct element order.

RAILING Balcony railing is produced by XXXXX The distance between axis of steel tubes is 96mm to prevent children from crossing the railing. The railing steel tubes are mounted in vertical position to prevent children from climbing on it. The railing is mounted to the side of the balcony. The railing is coated with white anti-corrosive paint.

8 G

Dimensions One balcony have 9,47 M2 area. Because typical balcony is serving 2 flats, one flat have typically 4,74 M2 of balcony

Apartment Layout 7

A single balcony is serving 2 flats

UNIVERSITY COLLEGE SCHOOL OF TECHNOLOGY AND BUSINESS -

PROJECT:

BALCONY SPECIALIZATION

DATE: 06/17/13

SUBJECT:

PLAN

SCALE:

1 : 20

CLASS:

CASH42

DRAWN BY:

The total investment diffrence is also big, but a little smaller (~3:1) The aesthetics still make a big impact in choosing between both.

1// Steel balcony railing 2// Balcony gutter 3// Prefabricated balcony 4// Balcony door 5// downpipe 6// Balcony slab dillatation from the wall 7// Window 8// pvc light wall on steel frame

There is a big diffrence in construction price in both elements (~5:1)

Mateusz Płoszaj Mazurek

As the railing make a small impact in a overall price but a decent impact on the visual look of the building I decided to choose steel railing.

Horsens

001

A single balcony is serving 2 flats

Balcony was designed as a prefabricated element. The detail shows how the balconywall connection looks like.

Balcony is designed as prefabricated construction 11

LOAD TRANSFERRANCE

SPECIALIZATION

3 10

PRIVATE BALCONY

16 17 18

Mateusz Płoszaj-Mazurek

1// balcony door 2// wooden block shaped to hold floor and door 3//sealing 4// expanded polysteryne block 140x25mm 5// laminated floorboards 8 mm 6// foam 4 mm 7// soft plywood 22 mm 8// hollow core concrete slab 220 mm 9// aluminium part of balcony doors 10// wodeen batten 45x95 mm 11// wooden cradle laying on pieces of plywood 100x1000x10 x2 12// soft insulation ROCWOOL 100mm 13// drainage system 14// steel hanger for balcony and doors 15// balcony slab 180 mm thickess 16// StoTherm system 17// adhesive layer 10 mm 18// concrete prefabricated wall 15 mm 19// metal hanger 20// wooden block 21// elastic joint 22// FERMACELL Firepanel A1 23// balcony window 24// downpipe

20 21 22

UNIVERSITY COLLEGE SCHOOL OF TECHNOLOGY AND BUSINESS -

PROJECT:

BALCONY SPECIALIZATION 24

DATE: 06/17/13

SUBJECT:

SECTION

SCALE:

1:5

CLASS:

CASH42

DRAWN BY:

wooden block transferring load from floor and window onto metal hanger

TOLERANCE

balcony slab goes into the wall to make support for window and to make clean connection

Additional layers of steel plates allows for adjustments. Slotted holes allows for movement.

AUTHOR

The load from balcony is transferred onto loadbearing walls with metal brackets.

MOVEMENT

180

Balcony detail

Mateusz Płoszaj Mazurek

Horsens

002

steel intumescent coated T-beam transfers load onto the hanger neoprene layer is taking care of any possible sound transferrrance

SOUND

Neoprene layer stops sound transferrance

metal shim allows for additional tolerance

INTUMESCENT COATING

The structure is covered with intumescent coating

soft connection with facade plaster stops it from breaking via movement the seal helps also to improve air tightness

metal hanger transferring all load onto the wall

1 UNIVERSITY COLLEGE SCHOOL OF TECHNOLOGY AND BUSINESS -

PROJECT:

Multi-storey housing

DATE: 06/19/13

SUBJECT:

Metal Hanger detail

SCALE:

1:5

CLASS:

CASH42

DRAWN BY:

3 4 5 1 Steel T-beam 2 Neoprene layer for sound insulation 3 Steel plate 4 Steel hanger 5 Slotted hole allowing for movement

Mateusz Ploszaj-Mazurek

Horsens

007

Sound SBI 237 DEMANDS 8.2 Access balconies, balconies and terraces Balconies and access balconies as well as shared and private terraces and roof terraces have to be carried out, so that they fulfill the Building regulation’s function demands for impact sound level equivalent to sound class C in DS 490 (Danish Standard, 2007). The threshold value for the impact sound level L'n,w is 58 dB been measured in surrounding living rooms and kitchens. Balconies with a floor space less than 2.5 m2 must not comply with demands fur impact sound level. (...) This is to ensure that impact sound from the balconies do not result in too high impact sound level in residential rooms that lies down obliquely. Both the floor materials, which have to be suitable for outdoor use and the execution of the floors, should be specified in the project material.82 Floating balconies Balcony- and access balcony plates can also be laid up as floating without stiff connections to the load bearing construction. Support pieces have to be of a suitable elastic material. (...)

2013 Multi-storey housing in Horens, Denmark - specialization

Responsibilities: Developing the project from scratch until finish. Concept idea, making physical model, sketches and visualizations.

PRIZE 1st

Supervising the construction process with Learnmark students. Making all the technical decisions together with the other team member. Time period: Concept: 1 month; production: 2 months

competition/2013

Horsens Kommune organized a design competition for VIA University College students. The subject was to design new sitting furniture for Horsens, Denmark.

ORIGAMI BENCH The first thing we decided about the project was to make it use as small amount of material as it can. That is why we decided on triangular shape of the bench allowing to cut many pieces from one steel sheet without generating any waste. The origami bench was awarded 1st prize in a competition organized by Municipality of Horsens. 9 benches were produced by Learnmark, and they standed in the city centre of Horsens during the summer and autumn. As they were very popular, they will come back after the winter ends. Project was made in collaboration with Natalia Okolus

2013 1st prize - Street furniture competition, Horsens,Denmark 10

2013 Street furniture in Horsens

40,5cm

After we won the competition we participated in the whole production process that took place at Learmark School in Horsens. Production process

106cm

After we won the competition we participated in the whole production process that took place at Learmark School in Horsens. We worked together with the Danish students to make the benches come alive. Both of us supervised the production process.

1:10

40,5cm

SECTION

94,5cm side view

1:10

94,5cm

106cm

VIA University Webpage 1:10

The competition was covered on few printed newspapers and internet websites. To mention a few: Horsens Folkeblad, Horsens Kommune Webpage, VIA University Webpage.

40,5cm

top view

106cm

TEAM

front view

1:10

Mateusz PĹ&#x201A;oszaj-Mazurek Natalia Okolus

The origami benches now stand in the Horsens city center.

1st prize - Street furniture competition, Horsens,Denmark

Competition

The competition was organised by Polish company Arthauss which specialises in modular housing projects. The task was to design an interesting and original housing concept that uses only 3 diffrent module sizes.

PRIZE

competition/2013

2nd

Responsibilities: Developing the project from scratch until finish. Concept idea, architectural drawings, sketches and visualizations. Time period: Concept: 1 month

The functions were divided into day activities and night activities. This shaped the main two parts. The parts were created using 2 standard container modules produced by the Arthauss company. The main idea of the house, was to open it to the inside. By adding two small modules we created a courtyard (atrium) that became a heart of the house.

2013 2nd prize - Arthauss modular house competition 12

2013 Arthauss - modular house competition

Living room

The living room is located next to the atrium allowing the habitants constantly see what is happening there. The atrium connects both parts and makes a perfect place to spend free time. It is big enough to make a party, it is safe to leave the children here.

2nd prize in the competition

Level 01 Plan

Our project was awarded 2nd prize in the competition.

The plan is very simple. All the bedrooms are located in the upper part - being in the â&#x20AC;&#x153;nightâ&#x20AC;?part. The lower part is the living room with the kitchen. The connection beteen those 2 parts is made with enterance module and toilet.

TEAM Mateusz PĹ&#x201A;oszaj-Mazurek Natalia Okolus

2nd prize - Arthauss modular house competition 13

Responsibilities: Developing the project from scratch until finish. Concept idea, architectural drawings, sketches and visualizations.

school project/2013

Time period: Concept: 1 month

IV -0,60

+0,10

13,35m

-0,60

The initial concept is based on the analysis of the surrounding area. The area consists mostly of old 4 or 5 storey buildings with flat roofs. The building follows the shape of two buildings behind it. The building saves existing pathway leading to Museum of the History of Polish Jews, by cutting out a hole in the ground 2013 level.

AUTHOR Mateusz PĹ&#x201A;oszaj-Mazurek

Multi-storey housing in Warsaw

2013 Multi-storey housing in Horens, Denmark - awarded school project

6429 780

640

660

780

640

660

640

7745

2nd level plan

SYPIALNIA 10.1m²

1362

ŁAZIENKA 6.1m²

530

ANEKS KUCHENNY 9.6m²

ANEKS KUCHENNY 5.9m² PRZEDPOKÓJ 2.8m² POKÓJ DZIENNY 16m²

KORYTARZ 3.7m²

WC 2m²

ANEKS KUCHENNY 6.4m²

PRZEDPOKÓJ 3.2m²

POKÓJ DZIENNY 19.6m²

SYPIALNIA 7.1m²

POKÓJ DZIENNY 19.3m²

POKÓJ DZIENNY 18.2m²

LOKAL NR9 PUM 76.3m²

2PK

LOKAL NR8 PUM 37.9m²

4PK

LOKAL NR7 PUM 58m²

SYPIALNIA 12.9m²

PRZEDPOKÓJ 7m²

ŁAZIENKA 5.3m²

GARDEROBA 2m²

ANEKS KUCHENNY 5.5m²

BALKON 21.4m²

ANEKS KUCHENNY 5.9m² PRZEDPOKÓJ 2.8m² POKÓJ DZIENNY 16.9m²

SYPIALNIA 7.9m²

KORYTARZ 17.4m²

WC 1.5m²

PRZEDPOKÓJ 10.1m² WC 1.8m²

ANEKS KUCHENNY 6.4m²

ŁAZIENKA 4.1m² ANEKS KUCHENNY 10.4m²

POKÓJ DZIENNY 19.1m²

SYPIALNIA 7.5m² SYPIALNIA 16.7m²

SYPIALNIA 7.5m²

PRZEDPOKÓJ 7.7m²

ŁAZIENKA 5m²

ŁAZIENKA 4.4m²

BALKON 9.8m²

BALKON 9.5m²

KORYTARZ 17.4m²

+10,40

BALKON 11.2m²

SYPIALNIA 12.9m²

SYPIALNIA 7.3m²

ŁAZIENKA ŁAZIENKA 1.7m² 4.7m²

ŁAZIENKA 3.8m²

SCHODY 7.7m²

9x17,5 SCHODY 27 7.7m² SYPIALNIA 7.3m²

ŁAZIENKA 4.2m²

PRZEDPOKÓJ 3.1m²

ANEKS KUCHENNY 9.6m²

POKÓJ DZIENNY 16.1m²

POKÓJ DZIENNY 16.8m²

KUCHNIA 6.5m²

1187

ŁAZIENKA 5.3m²

PRZEDPOKÓJ 6.8m²

B 9x17,5 27

560

KORYTARZ 17.4m²

+10,40

SYPIALNIA 15.6m²

530

16.8m²

9x17,5 27

SYPIALNIA 12.8m²

9x17,5 27

560

SYPIALNIA 7.3m²

SYPIALNIA 7.5m²

PRZEDPOKÓJ 10m² C

9x17,5 27

SCHODY 7.7m²

POKÓJ DZIENNY 18m² F

3PK

LOKAL NR18 PUM 65.4m²

BALKON 10.1m²

3PK

BALKON 9.8m²

BALKON 9.5m²

BALKON 11.1m²

LOKAL NR17 PUM 37.9m²

zwir geowłóknina polistyren ekstrudowany 2x folia PE warstwa spadkowa betonu płyta zelbetowa

2PK

LOKAL NR16 PUM 58m²

3PK

LOKAL NR27 PUM 65.2m²

3PK

LOKAL NR26 PUM 30.1m²

1PK

LOKAL NR25

4PK

PUM 76.2m²

148

cm 1.5 tynk cem.- wapienny 20 beton B30, W6 1.5 tynk cem.- wapienny

285

parkiet/terrakota wylewka cementowa folia PE płyty styropianowe EPS 100 płyta zelbetowa tynk gipsowy

Section

tynk cem.- wapienny okładzina betonowa czarna cegła klinkierowa styropian pustak MAX tynk cem.- wapienny

275

280

cm 1.5 20 12 20 30 1.5

280

cm 2 4 4 25 1,5

280

275

1447

gres zaprawa mineralna wodoszczelna wylewka betonowa ze spadkiem folia PE płyty styropianowe EPS 100 folia PE płyta zelbetowa płyty styropianowe EPS 70 tynk akrylowy na siatce

335

10 40 275

The building stands on an 1 meter elevated area. This generates more private semi-public space for the habitants.

2013 Multi-storey housing in Warsaw

czarna cegła klinkierowa styropian pustak MAX tynk cem.- wapienny

370

cm 12 20 29 1.5

cm 2 6 5 15 5 -

Part of furniture concept for woodyoulikeit.eu a furniture company. Aerial view

30 śscianażzelbetowa beton B30, W6 1.5 tynk cem.- wapienny

10 20 10 25

cm 10 50 5 10 20

płyta betonowa ze spadkiem% 1 zatarta na gładko 2x folia PE na zakład płyta fundamentowa jastrych ochronny ( min. 3cm ) 2xfolia PE 0.2mm warstwa wyrównawcza z betonu B20 ubity piach

Responsibilities: Developing the project from scratch until finish. Concept idea, architectural drawings, detail drawings, sketches and visualizations. Time period: 3 months

+ 25,60

+ 24,30

Parametric model

Tower construction project was designed during 5th semester at Warsaw University of Technology.

school project/2012

Main idea was to create a shape that will nicely fit into the surroundings (one of national parks in Poland).

+ 14,50

This was achieved by creating simple cylinder shape and twisting it to get optimal construction parameters.

skala 1:50 [m]

C 2

+ 00,00

A - 01,50

Parametric model

- 03,00

This project was created using Grasshopper plugin for Rhinoceros. The whole construction was planned using parametric functions. The shape strictly derives from mathemati2012 cal equations.

2012 Tower construction project

AUTHOR Mateusz PĹ&#x201A;oszaj-Mazurek

Tower construction - school project

Concept

Hasselblad shop interior is a project designed on 4th semester at Warsaw Univeristy of Technology. The shop, selling hasselblad cameras, is resembling hasselblad camera itself. This is achieved by careful minimalistic architectural design - using light as one of the materials

The concept tricks visitors into thinking the shop is much longer, than it really is. False perspective effect is created by using not parallel lines inside.

personal projects

Interior

The interior design represents structure of old cameras. Each white element is a bit lower creating false perspective. One of three presentation boards. Additionaly a 1:10 interior model was made.

Plan

Plan is divided into 4 parts: 1) exposition area 2) relaxation area 3) cashier area 3) storage area

AUTHOR Mateusz PĹ&#x201A;oszaj-Mazurek

4 3

2012 Hasselblad Shop Interior 2012 Hasselblad shop interior

DSGNRT is a project created by Mateusz PloszajMazurek and Natalia Okolus.

personal/ since 2012

DSGNRT is a design-oriented webpage. We post new articles almost every day. Every time we select things that are interesting either aestheticaly or conceptually. We write short blog posts and maintain a facebook fanpage with over 26,000 of followers.

TEAM Mateusz PĹ&#x201A;oszaj-Mazurek

www.dsgnrt.net 18

DSGNRT.net - architectural webpage

Natalia Okolus

Table /2012

Part of furniture concept for woodyoulikeit.eu a furniture company. MANA studio is a project created by Mateusz Ploszaj-Mazurek and Natalia Okolus.

DIY Laptop stand/2012

Some of the projects realized as MANA studio: -Origami bench in Horsens, Denmark -Arthauss modular hosue competition in Poland -DSGNRT architecutral webpage -Furniture design (table, desk, chairs) for small Polish company Woodyoulikeit -Architectural visualizations for archtiectural offices like Grupa5 -Lasercut tableware concept and production -Realized a couple of interior design projects in Poland -much more!

Desk /2012

Visualization of desk designed for woodyoulikeit.eu

personal projects

How to make a laptop stand from an old cloth hanger? Recycling instructions

As MANA studio both of us create architectural projects, designs and mu ch more.

Origami benches /2013

A screen from video about Horsens Furniture Competition by Horsens Kommune.

TEAM Mateusz PĹ&#x201A;oszaj-Mazurek Natalia Okolus

MANA studio

Responsibilities: Developing urban concept from scratch to finish. Drawing masterplan. Making visualizations.

TEAM Mateusz PĹ&#x201A;oszaj-Mazurek

school project/2014

Natalia Okolus

Urban masterplan for Radom in Poland was developed during 7th semester at Warsaw University of technology.

Radom is a city with deep problems about urban degeneration. The whole city needs refurbishment. We started with a part that consisted mainly of old abandoned factories and transformed it into green garden city.

2014 Radom Urban Masterplan 20

2014 Radom - Urban Masterplan

The deer / 2012

Modern Cat / 2012

This is another digital painting created for a competition. The competition was organized by Polish artprint company. The painting won a prize by public voting. It was preseneted during the exhibition in Gda単sk, Poland. Monuments/ 2012

A digital painting created with Adobe Photoshop.

personal projects

The deer is a digital painting done in Adobe Illustrator and Adobe Photoshop. The work was done for small competition - the task was to find a modern depiction of a deer. I decided to create a figurative painting, but making it from simple shapes.

A port in Norway / 2011

Watercolor painting on paper. The port was painted plein-air during a trip to Norway in summer of 2011.

2011-2013 Other works Other works

Responsibilities: Making architectural visualization, animation and some of the minor drawing works.

PRIZE

internship/2013

1st

This project was developed by Grupa5 Architekci. There were around 5 people working on it (3 students and 2 architects). I participated in it during my practical placement. Competition was for modernization of old Gdańsk shipyard area. The yard gained international fame when Solidarity (Solidarność) was founded there in September 1980. I was responsible for part of the visualizations (3 out of 8) and architectural animation.

TEAM Mateusz Płoszaj-Mazurek Natalia Okolus Architects from Grupa5

2013 Road to Freedom 22

2013 Road to freedom