A g a t h e
C e c c a l d i
p o r t f o l i o
2 0 1 6
Pratt Institute - New York Studio Projects Pratt Institute - New York Built Projects
I 01
Crystals Housing project - Carlos Arnaiz studio 2014 - In Process published
02
The bug Supermarket project - Kutan Ayata studio 2015 - Group project - In Process & Instagram published
03
Community center Community project - Erich Schonenbergen studio 2013 - In Process published
04
Fold Shelter Refugee shelter project - Vito Acconci studio 2016 -
II 05
Putnam canopy PrattSIDE project - Students association 2014/15 - Group project - In Process published
06
Compost Twist PrattSIDE project - Students association 2015/16 - Group project - In Process published
07
Fish Pond PrattSIDE project - Students association 2015/16 - Group project - In Process published
Ecole Camondo - Paris Interior & Product Design
III 08 Vice Versa Box Interior Design - Sebastien Boissard studio 2011 09 Cavalcade truck Product Design - Averland/Tinel/Cuvellier studio 2011
Research/Experimentation
10 Sitting/Working/Relaxing Product Design - Averland/Tinel/Cuvellier studio 2011
IV -- Fabrication Digital and kinetics - Jeffrey Taras/R Zacharian 2014/15/16 -- Computer Media 2014/15/16 -- Sketches 2014/15/16
Agathe
Ceccaldi
+1(646)275-2494 480 Nostrand ave - apt 4C 11216 Brooklyn, NY agathececcaldi@gmail.com
Pratt Institute - New York Studio Projects
I 01
Crystals Housing project - Carlos Arnaiz studio 2014 - In Process published
02
The bug Supermarket project - Kutan Ayata studio 2015 - Group project - In Process & Instagram published
03
Community center Community project - Erich Schonenbergen studio 2013 - In Process published
04
Fold Shelter Refugee Shelter project - Vito Acconci studio 2016 -
I
Crystals Housing project - Carlos Arnaiz studio 2014 - In Process published Situated at the angle of Broadway and Spring street, this project tend to create a shared environment for different types of housing units. From the macro scale of the city to the micro scale of the unit, the project swings between open-close and public-private spaces. It is about creating a space to enhance diversity and make different kind of people live together in a smaller city. The building is made from the denser mass possible on the site, following FAR and sky opening ratios, with views opened on the city created by the indoor circulations and following a radial grid inspired by the city grid. This process resulted in a building divided in three types of ‘crystals’ representing the different communities. Each floor is divided by common spaces used for different activites by the residents - garden, café, terrace, playground, work space... - and leeding to the different units. A metal mesh is chosen for its properties of translucency, strenghness and aesthetic to bring some privacy to the building from the street and let sunlight penetrate the space. This skin is attached to the structure of the building and the floors. A steel structure is used with concrete floors to keep the spaces as open as possible.
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Site - Sun Path & Radial Grid Study Conceptual models - Unit study
↓
Render - Facing the city Public spaces facing the city and the privacy protected by the mesh skin.
Crystals
↓
Conceptual Model Close-Up
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Plans - 1rst Floor to Roof Units numbers and Public Spaces
↓
South Elevation - The Metal Mesh Skin provides privacy and creates a facade pattern.
Crystals
↓
Massing Model - Laser cut paper and Plexiglass
↓
↓
Wood Model Studies - Ccirculation, structure and skin.
Axonometric - Skin, Structure and Slabs & Program by floor and crystals
Roofto p
21 Circula
tion
20 Circula
tion
19 Circula
tion
Indor
Indor
Indor
terrace
terrace
terrace
and cir
and cir
and cir
18
culatio
n
17
culatio
n
16
culatio
n
15
Circula
tion
Garde
n ind
Indor
Outdo
terrace
oor an d
and w
outdoo
ork sp ac
r
e
or terra
Indor
ce an d circu
terrace
and w
Gym
Gym Indor
terrace
Indor
Indor
terrace
terrace
Indor
ork sp ac
area
area
and w
outdoo r
and cir
terrace
n
ork sp ac
and cir
and cir
Entra nce/ mail
box/
e
culatio
e
culatio
n
Public Indor
e
indoo r
ork sp ac
and w
terrace
lation
café
culatio
n
Garde
n
14
13
12
11 10
9
8 7
6 5 4 3 2 1
Studios cluster one bedroom 400 to 600 sqft 40 units
Houses cluster Three bedrooms 2000 to 2500sqft 12 unit
Lofts cluster Two bedrooms 1200 to 1500 sqft 24 units
↓ South Elevation - Mesh Façade South Section and West Section
Crystals
↓
Structural Model
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Studios cluster axon - 12 units One bedrooms units, four levels, semi-private workspace. Studio #7 plans - Floor 5 - 600 sqft
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Houses cluster axon - 5 units Three bedrooms duplex units, three levels, semi-private gardens House #3 plans - levels 2&3- 2500 sqft
↓ Slopes Study - Storage, stairs, entry, patios and views
↓
Lofts cluster axon - 8 units Two bedrooms duplex units, five levels, semi-private terraces Loft #3 plans - levels two and three - 1500 sqft
Crystals
↓
Groundfloor plan Garden, lobby, stores and access.
Laundry Storage
Entry to Café
Lobby
Store
Garden
Store
Entry to Units
↓
↓
Floor Plans of the different Units
Renders - Studio, Shared Working space and Circulation
Studio 10 Plan
Loft 3 Plan Level 2
Loft 3 Plan Level 1
House 2 Plan Level 2
House 2 Plan Level 1
Crystals
↓ Render - Shared Spaces
↓
Technical Section and Details Slab and Ceiling, Window and Thermal Break and Façade
Detail 1
Fifth floor
EL+60’
Outdoor balcony
Wood floor
Detail
Wood sleepers Wood paneling and wood flooring 1nailed to the sleepers
Fifth floor
EL+60’
Outdoor balcony
Wood floor Wood sleepers Structure fire proofing Wood paneling and wood flooring nailed to the sleepers
French window
Structure fire proofing French window
Fourth floor
Glass handrail Fourth floor
Glass handrail Detail 1
EL+45’
EL+45’
Metal mesh skin Detail 1
Drop ceiling Metal mesh skin
Drop ceiling
Detail 2
Truss
French window
Detail 2
Truss
Third floor
French window
EL+30’
Detail 2
Detail 3
Third floor 2’ Third floor lower slab
Thermal break Insulation
Third floor
EL+30’
Detail 2
Detail 3
2’
Third floor
Third floor dropped ceiling 2’
Structure holding the drop ceiling Thermal break
Third floor lower slab
Insulation
2’ Third floor dropped ceiling
Structure holding the drop ceiling
Sealant for expansion and contraction Steel furring channels wired to the runner channels for support Metal lath wired to the furring channels Sealant for expansion and contraction Three coast of plaster applied to the metal lath
Detail 3 Second floor
Steel furring channels wired to the runner channels for support
EL+15’
Metal lath wired to the furring channels
Concrete slab Steel structure
Three coast of plaster applied to the metal lath
Detail 3 Second floor
Detail 3
EL+15’
Concrete slab Steel structure
Detail 3Handrail
Handrail
CR Laurence Frameless Windscreen Clamps
CR Laurence Frameless Windscreen Clamps
Cambridge architectural metal mesh Bead, stainless steel Cambridge architectural Eclipse attachement system Cambridge architectural metal mesh Bead, stainless steel Cambridge architectural Eclipse attachement system
First floor
First floor
Concrete footing
Concrete footing
I
t r i a n g l e s ttur di ay n g l e s t u t rdi a y n g l e s t u dtyr i a n g l e s t u d y
TEAM
PATRICK TOH
TEAM
T
PATRICK TOH
PA KAYS
AGATH
CONSULTANTS C O N S U L T A N T SC O N S U L T A N T S
CONS
triangle study
DESIGN
The bug
↓
t r i a n g l e r etl rai tai no gn lseh ir pe stl ar itai on ng sl eh irpesl a t ir oi anns gh li ep sr e l a t i o n st rhi iapnsg l e r e l a t i o n s h i p s
KD U ETSAING NA Y A T A
KU D TE A SN I GA NY A T A
K U T ADNE A SY I GANT A
SITE
MSEI TT A E B R U N Z E M A MS E ITTAE B R U N Z E M A M E T AS IBTREU N Z E M A
MECHANICAL
RM OE BC EH RT A NKIECRANL S
RO MBEECRHTA N K EI CRANLS
STRUCTURE
S SATRRRUACHT K UH RA EN
S AS RT R RA UH C TKUHRAEN
FACADE
S FAAMCM A EDRE K U M A R S AF M A CMAEDRE K U M A R
R O B EM RE T CKHEARNNI SC A L S A R RSATHR K UH CA TU NRE SAMM FE AR C AKDUEM A R
Resarch - Triangle and Site Study around the triangle, its shape, its relation and the unit. Study on the site, the circulation, the program, the hot & cold cycle.
Supermarket project - Kutan Ayata studio 2015 - Group project - In Process & Instagram published t r i a n g l e u nt ir ti a n g l e u ntirt i a n g l e u n i t t r i a n g l e u n i t
TEAM
PATRICK TOH
KAYSEY THOMAS KAYSEY THOMAS KAYSEY THOMAS A G A T H E C E C C A L DAI G A T H E C E C C A L D IA G A T H E C E C C A L D I
triangle unit
This project is situated on the I-5 highway. The site being really specific in terms of speed and views made the concept starts with triangles. Their stacking creates a fragmented space Concept
made of solids and voids. Their shape allows to control views
Concept
Concept
Co
T h e c o n c e p t sTt ha er t ce o d nwc ietpht s Tt ah ret ecdo nwciet h p t s t a rTt he ed cwoi n t hc e t r i a n g l e s . T h et irri asnt ga lceksi .n gT h eti r i as n t agcl ek si n. gT h e i r s t rt iaacnkgi lnegs . c r e a t e s a f r a gcm r eeantteesd a f r a gcmr e a n t e sd a f r a g m ecnr teeadt e s
and suggests an orientation. They meet in different ways, more
s p a c e m a d e o sf psaocl ei dm s aadned o fs ps ao cl ied sm a d ne d of so sp l i adcse am n da d v o i d s . T h e i r svhoai pd es . aTl lhoewi rs s vh oa ipdes .a lTl h o ewisr s h a pv e o i ad lsl .o w T hs e
t o c o n t r o l v i e twos caonndt r o l v i e w t os caonndt r o l v i e w s t ao n cdo n t r
s u g g e s t s a n osrui eg ng teasttiso na.n o sr iuegngt east ti os na. n o r i esnut ga g t ieosnt.s a
or less close, almost flirting sometimes. To control them, a unit
T h e y m e e t i n Td hi fef ye rm e ne te t i n dT ihf ef ey r emnete t i n d i f fTehreeyn tm e e
w a y s , m o r e o rw laeysss, cml o rsee , o r wl a e ys s , cm l oosr e , o r l e w s sa ycsl ,o smeo, r e almost flirting a l m o s t f l i r t i n ga l m o s t f l i r t i n g
almo
sometimes. Ts ho e mu enti itm e s . T hseo m u ne it ti m e s . T h e su on m itetim
helps to create the voids while changing the triangle sizes.
h e l p s t o c o n t rhoell pt h s et ov ociodns t rhoel l tphse t vo oci d o sn t r o l ht eh lep sv otiod sc o w h i l e c h a n g i nwg hti hl ee c h a n g i n w g ht ihl e c h a n g i n g t w he hile c t r i a n g l e s i z e st.r i a n g l e s i z e s t. r i a n g l e s i z e s .
The overall final shape comes from a diverse family of
trian
T h e o v e r a l l s hTahpee ocvoem r ael sl s hTahpee ocvoemr ae lsl s h a pTe hceo omveesr a l
from a diverse f r of amm ai l yd iov fe r s ef rfoam m ial yd o i vf e r s e f af rmoim l y ao fd i v s o l i d s a n d v o si dosl i d mso va en dd v o isdosl im d so vaendd v o i d s sm o loi vd es da n a r o u n d t h e s i taer oaunndd t h e s i taer oa un nd d t h e s i t e aanr o dund
solids and voids moved around the site and thought as
t h o u g h t a s d i tf fheoruegnht t a s d i ftfheor u en g th t a s d i f f e rt eh no tu g h t
o r i e n t a t i o n s roerl iaetnetda tt ioo n s r o e lr ai et n ed t a tt oi o n s r e l aot reide nt toa t i o
t h e h i g h w a y , t h e vh i eg w hw s a y , tthhee vhi iegwhsw a y , t h e t h v iee w h isg h w
a n d t h e e x p e rai en nd c teh e e x p e r iaenndc et h e e x p e r i e nacne d t h e
different orientations related to the highway, the views and the
t h r o u g h t h e m .t hTr ho eu gf h l o twh eo m f .t hT rhoeu fglho w t h oe fm . T ht h e r fol uo gwh otfh
t h e b u i l d i n g i tsh feo b l luoiw l di n i ngg i st hfeo lbl o uw ild i ni n g g i s f ot hl leo w bu i ni lgd i n t h e h i g h w a y f tl h o ew haingdh w a y f ltohw e h an i gdh w a y f l o wt haen dh i g h e x p a n d i n g t o et h xp e a n d i n g t o tehxep a n d i n g t o t h ee x p a n
experience through them. The flow of the building is following
l a n d s c a p e . T hl ea n d s c a p e . T h lea n d s c a p e . T h e l a n d s e x p e r i e n c e t h ee xnp ce rr ei ea nt ec de t h ee nx pcer rei ae tnecde t h e n ec xr p ea e tr e i edn c
o n t h e h i g h w aoyn ctohnes hi si g t sh w aoy nc tohnes ihsitgsh w a y coonn st hi se t sh i g o f l i g h t a n d s oh fa dl iogw h .t a n d s ho af dl o i gwh. t a n d s h a doof wl i. g h t
the highway and expanding to the landscape. The experience
T h e s i t e a n a l yTshi es sailtl eo wa sn a l yTshi se as li lt oe wasn a l y s i sT hael l os w i t se a
t o c r e a t e c i r c tuol actri eo an t, e c i r c ut ol a ct ir oe na ,t e c i r c u l attoi ocnr, e a t e p r o g r a m a n d tper m o gp raar m a t ua rned tpe rmo pg ar ar amt uarned t e mppraorgartaum r ea l o c a t i o n s d e t el or m c ai tniaotni s n gd e t el rom c ai nt iaot ni nsg d e t e r ml ioncaatti inogn s
then created on the highway consists of light and shadow,
t h e r i g h t s h a pt eh .e r i g h t s h a pteh. e r i g h t s h a p e . t h e r i
SITE
solid and void. The site analysis allows to create circulation,
SITE
SITE
S M O K E Y P O I N T , WSAMSOHKI N EY G TPOONI N T , W SA M SH O IKNEGYT POONI N T , W A S HSIM NO GK T EOYN P O
program and temperature locations determinating the right
PROJECT
PROJECT
PROJECT
PR
SUPERMARKS ET U P E R M A R K ESTU P E R M A R K E T S U P E
shape. The two speed approaches, fast and slow enhance
D R A W I N G T I T LDER A W I N G T I T LDER A W I N G T I T L E D R A W
the shape of the building and its fragmentation.
BLABLABLA BLABLABLA BLABLABLA
BLA
D R A W I N G N O .D R A W I N G N O . D R A W I N G N O .
DRAW
A0 A0 A0 A
Team: Kaysey Ann Thomas, Patrick Toh & Agathe Ceccaldi Consultants: Design: Kutan Ayata, Site: Meta Brunzema, Mechanical: Robert Kerns, Façade: Sammer Kumar. S y m m e t r i cSa yl m f ammeitl ryi c S a ly m f am mei tl yr i c a l Sf yam mm i l ye t r i c a l f a mSi lyym m e t r i c a l f a m i l y
PAK TEAM
KITCHEN MICRO FARM
MICRO FARM PACKED FOOD
KITCHEN MICRO FARM
NON-FOOD PACKED FOOD PATRICK TOH
KITCHEN MICRO FARM
NON-FOOD PACKED FOOD
K A Y S E Y T H O MRESTAURANT AS RESTAURANT AGATHE CECCALDI DELICATESSEN
triangle study
ENTRY
CHECK-OUT
DELICATESSEN
ENTRYENTRY
ENTRY
CAFE
PHARMACY
C O N SPECIALTY SSPECIALTY ULTANTS
NON-FOOD
CAFE
ENTRY
DELICATESSEN
ARTISANS ARTISANS CHECK-OUTCHECK-OUT CHECK-OUTCHECK-OUT CHECK-OUT CHECK-OUTARTISANS
ENTRY CAFE PHARMACY
SPECIALTY
SPECIALTY
CHECK-OUT CHECK-OUT
SPECIALTY ARTISANS
CHECK-OUT
KUTAN AYATA FRESH FOOD FRESH FOOD FISH MEAT M E T AMEAT B R U N Z E M AFISH
DIARY DIARY OFFICES M E C H A N I C A L OFFICES R O B E R T K E R N S OFFICES FROZEN FROZEN STRUCTURE SARRAH KHAN
FACADE
DELICATESSEN
ENTRY ENTRY
CAFE PHARMACY
SPECIALTY SPECIALTY
ARTISANS
DESIGN FRESH FOOD SITE
NON-FOOD
RESTAURANT
ENTRY
PHARMACY SPECIALTY SPECIALTY
KITCHEN
PACKED FOOD
RESTAURANT
DELICATESSEN
ENTRY
CAFE
PHARMACY SPECIALTY
KITCHEN MICRO FARM
NON-FOOD PACKED FOOD
RESTAURANT
FISH
FRESH FOOD MEAT
FISH
MEAT
DIARY OFFICES
DIARY
FROZEN
FROZEN
FRESH FOOD
OFFICES
FISH
MEAT
DIARY FROZEN
SAMMER KUMAR
triangle relationships
M a r k e t c i r c uM l aatri ko ent c i r c u M l aat ir ok ne t c i r c u l a tM i oanr k e t c i r c u l a t i o n M a r k e t c i r cPur loagt ri o n m a t iPcr o g r a m m a t i Pc r o g r a m m a t i c P r o g r a m m a tTi ec m p e r a P t ur o r egTrd eam im s ptm reiarbatuitctui roenTdedim isatpgreir braaumtt ui or en dd iiTsaetgm rri ab pm u e tr iaot nu rde i ad gi sr a t rm i bTuet m i opne d r ai at ug r ea m d i s t r i b u t i oVne hd ii cauglrea m am c i r cVuel ha itci o un l e c i r cVuel ah ti c i ounl e c i r c u l a V tei ho inc u l e c i r c u l a t i o nV e h i c u l e c i r c u l a t i o n
FAST TRACK
FAST TRACK
FAST TRACK
FAST TRACK
FAST TRACK
TRUCK ROUTE
S L O W C I R C U L A T IS OLNO LWO C O IPR C U L A T I OS N L OLW O OCPI R C U L A T I O N S LO LOW P C I R C U L AT I O N LO O P S LO W C I R C U L AT I O N LO O P S E C O N D A R Y PAT H SS E C O N D A R Y P A T HSSE C O N D A R Y P A T H S S E C O N D A R Y P A T H S
S E C O N D A R Y PAT H S
triangle unit
S i t e a n a l y sSiist e a n a l y sSi ist e a n a l y s i sS i t e a n a l y s i s
Site analysis
Concept
The concept started with triangles. Their stacking
TRUCK ROUTE
TRUCK ROUTE
TRUCK ROUTE
TRUCK ROUTE
P e d e s t r i a n cPi recduel sa t ri o i ann c iPr ec du el as tt iroi an n c i r cPu el adtei so tnr i a n c i r c u l a t i P on edestrian circulation
S H O P P E R Q U I C K SPHA O TP HP E R Q U I C K P SA H TOHP P E R Q U I C K P A TSHH O P P E R Q U I C K P A T H
SHOPPER QUICK
S H O P P E R V E H I C LSEH ROOP U P TE ER V E H I C L S E HROOPUPTEER V E H I C L E R S OH UO TP EPER VEHICLE ROUTE SHOPPER VEHICLE ROUTE
S H O P P E R L O N G PSAHTOHP P E R L O N G PSAHT O HP P E R L O N G P A T H SHOPPER LONG PATH
SHOPPER LONG
R E S T A R E A V E H I CRLEES TR OA U R TE EA V E H I CRLEES R T OAURTEEA V E H I C L E RREOSUTT A E R E A V E H I C L E R O U T ER E S T A R E A V E H I C L E R O U T E
R E S T A R E A P A T HR E S T A R E A P A T H R E S T A R E A P A T H
REST AREA PATH
REST AREA PATH
PARKING AREA
PARKING AREA
PARKING AREA
PARKING AREA
PARKING AREA
triangle unit
↓
Diagram - The bug family Formal research around triangles, solid & void, directionality...
Symmetrical family
The Bug
↓
Model - CNC base and 3D printed building
↓
Site Plan - Patterns of the different materials: Zinc, Burnt Wood a nd Windows Molions
The Bug
↓
3D Printed Building Model and CNC Site Model
↓
Supermarket Plan and Landscape
↓
Section Through the Highway
The Bug
↓
Render - From the Parking Towards the Entry of the Supermarket
↓
Section - Through the Landscape and the Highway
↓
Render - From the Highway Showing the Nose of the Building and the Begining of the Fragmentation
A304- 01 - SCALE 1/4
W O O D PA N E L S 6 ’ ‘ X 1 0 ’
↓
W O O D T I M B E R 2 ’’ X 1 0 ’’
↓
The Bug
Elevation West Side
W O O D T I M B E R 2 ’’ X 1 2 ’’
Site Section - Program organization, Soil and Planting
STEEL CAP
U CHANNEL
G R AV E L S
B I O S WA L E WAT E R F I T L E R P L A N T S CONCRETE FOOTING 2 4 ’’ X 1 0 ’’
S O I L G R AV E LY L O A M
REST AREA FA R M L A N D H I G H WAY
SUPERMARKET
R E S T A R E A PA R K I N G
EXISTING GREEN AREA
S U P E R M A R K E T PA R K I N G
PEDESTRIAN
OVERFLOW LAKE
M I C R O FA R M
PLAZA
P O R O U S PAV E M E N T 1 % s l o p e t o o v e r fl o w l a k e
PROMENADE Wood deck w i t h w a t e r fi l t e r p l a n t s
LANDFILL Earth from digging for
WAT E R F E AT U R E & G R E E N R O O F basement
s l o o p i n g t o o v e r fl o w l a k e
+65’ BUILDING HEIGHT
+32’ ENTRANCE HEIGHT
D E TA I L 0 4 D E TA I L 0 3
+20’ LAND FILL/ENTRANCE OF BUILDING +12’ EXISTING LAND
+0’ H I G H WAY
SOIL PROFILE 0 - 6 ” S A N D Y, G R A V E L LY L O A M 6 - 1 8 ” V E R Y G R AV E L LY A S H Y S A N D Y L O A M 1 8 ” - 6 0 ” E X T R E M E LY G R AV E L LY S A N D
A303- 08 - SCALE 1/4
↓
V E G E TAT I O N
North Elevation
GROWING MEDIA F I LT E R L AY E R D R A I N A G E L AY E R
P R O T E C T I O N FA B R I C ROOT BARRIER I N S U L AT I O N WAT E R P R O O F I N G MEMBRANE
ROOF DECK
LAND FILL
REST AREA
S U P E R M A R K E T PA R K I N G
PEDESTRIAN
OVERFLOW LAKE
P L AY G R O U N D
PLAZA
WAT E R F E AT U R E & GREEN ROOF
LANDFILL Earth from digging for basement
PROMENADE Wood deck w i t h w a t e r fi l t e r p l a n t s s l o o p i n g t o o v e r fl o w l a k e
P O R O U S PAV E M E N T 1 % s l o p e t o o v e r fl o w l a k e
EXISTING GREEN AREA
R E S T A R E A PA R K I N G
↓
Render - From the highway looking up the central void
The Bug
↓
Technical Section Roof Truss, Glass Structure, Gutter, Concrete Slab
↓
Landscape Axon - Circulation
The Bug
↓
Landscape Axon - Water Strategy
↓
↓
Landscape Axon - Green areas/Planting Strategy
Landscape Details - Deck Section and Green Roof
A303- 08 - SCALE 1/4
A304- 01 - SCALE 1/4
W O O D PA N E L S 6 ’ ‘ X 1 0 ’
V E G E TAT I O N W O O D T I M B E R 2 ’’ X 1 0 ’’
GROWING MEDIA W O O D T I M B E R 2 ’’ X 1 2 ’’
F I LT E R L AY E R D R A I N A G E L AY E R
STEEL CAP
P R O T E C T I O N FA B R I C ROOT BARRIER I N S U L AT I O N U CHANNEL
WAT E R P R O O F I N G MEMBRANE
G R AV E L S
ROOF DECK
B I O S WA L E WAT E R F I T L E R P L A N T S CONCRETE FOOTING
LAND FILL
2 4 ’’ X 1 0 ’’
S O I L G R AV E LY L O A M
REST AREA FA R M L A N D
REST AREA
The Bug
↓
↓
Wall Detailled Section S 1 0 4 - 0 1 - S C A L E 1 / 2 ’’
Structure Details Roof Eetail and Footing Detail
A 3 0 2 - 0 8 - S C A L E 1 / 2 ’’
A6
W24 COLUMN
Z I N C PA N E L S
S T E E L P L AT E
CEMENT BOARD
ANCHOR
I N S U L AT I O N
BLOT
W12
STEEL ANGLE
STEEL ANGLE
1 / 2 ’’
A6 M E TA L D E C K
B4
STEEL BAR
SECONDARY MEMBER
REINFORCED
SECONDARY MEMBER
CONCRETE
OPEN JOIST WEB
AXONOMETRIC OF THE T WO TRUSSES
MAIN MEMBER
D E TA I L 0 1
W36
DROPPED CEILLING
8 ’’
B2
S 1 0 4 - 0 1 - S C A L E 1 / 2 ’’
A6
STEEL TO CONCRETE CONNEC TION
W24 COLUMN
S T E E L P L AT E
ANCHOR BLOT
REINFORCED CONCRETE
STEEL TO CONCRETE CONNEC TION
D E TA I L 0 2
The Bug
↓
Structural plans Basement, first floor and roof
EMBANQUEMENT 2’ CONCRETE WALL
A
B
C
B25
25
24
RETAINING WALL 2’ CONCRETE WALL
B24
1’ CONCRETE SLAB CAST IN PLACE
span 121’ OPEN
OPEN span 127’
HIGHWAY COLUMNS 6’X10’ CONCRETE
METAL DECK 3’’ DEEP CONCRETE 5’’ TOPPING SLAB
CB
SKYLIGHT
CB
CB
CB
23 22
CB
B23
A22
21
span 76’
CB
B21
CB
20
A20
span 78’
C20
OPEN
OPEN OPEN
A19
OPEN
W6 TYPICAL COLUMN HEIGHT 10’ TO 15’
18
C19
CB CB
CB
METAL DECK 3’’ DEEP SPAN 15’
16
A18
C18
CB
W12 TYPICAL SPAN MAX 30
A15
span 93’
CAN
NT.
span 30’
CB
A11
10
B10
CANT.
CB
C11
CANT.
span 25’
CB
C13 C12
CA
11
A12
CB
C14
OPEN T.
W12 TYPICAL COLUMN HEIGHT 10’ TO 30’
12
C15
B16
A13
OPEN
CANT.
T.
13
span 30’
A14
W36 TYPICAL SPAN MAX 50’
14
CB
B17
CAN
CB
15
CB
SKYLIGHT
span 40’ CANT.
T.
17
CAN
19
CB
C22
SKYLIGHT CB
9
STAIRS AND ELEVATOR CORES
A8
CB
8
C8
B9
CB
span 111’ CB CB
OPEN
OPEN
7
span 83’
CB
A7
C7
CB
OPEN
6 A6
C6 span 85’
5
STORAGE
OPEN
B5
B4
span 128’
CB
CB
WALLS GROUND FLOOR CONCRETE SLAB
CB
4
TRUCK ROAD
SKYLIGHT CB CB
3 A3 OPEN
CB
C3
span 91’ OPEN
CB
CB
CB
CB
CB
CB
B2
2
CB
B1
1
CB
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↓
Truss Detail Plan, Front Elevaiton and Side Elevation
Building Axonometric Concrete Basement, Steel structure and Concrete Slab A6
A6
AXONOMETRIC OF THE T WO TRUSSES
B2
A6
B4 B2
65’ TRUSS TOP
D E TA I L 0 2
NCRETE COLUMN 40’ COLUMN TOP
30’
A6
30’
span 128’
span 85’
30’
30’
PLAN VIEW
span 85’
AXONOMETRIC OF THE T WO TRUSSES
2’x2’ REINFORCED CONCRETE COLUMN
B4
D E TA I L 0 1 20’ CONCRE TE COLUMN TOP TRUSSES CONNECTION POINT
STEEL TO CONCRETE CONNECTION
30’
40’
40’
30’
B2
30’
B4
B4
30’
F R O N T E L E VAT I O N
B4
B2
30’
B4
B4 B2
B4 65’ TRUSS TOP
B2
D E TA I L 0 2
B4 B2
A6 B2 D E TA I L 0 2
D E TA I L 0 1
40’ COLUMN TOP
65’ TRUSS TOP
30’ A6
40’ COLUMN TOP
40’ COLUMN TOP
65’ T R U S S 30’ TOP
B4
20’ CONCRE TE COLUMN TOP
A6
B2
65’ TRUSS TOP
65’ TRUSS TOP
span 128’
40’ COLUMN TOP
20’ CONCRE TE COLUMN TOP
B2
STEEL TO CONCRETE CONNECTION
40’ COLUMN TOP
20’ CONCRE TE COLUMN TOP
30’ D E TA I L 0 1
20’ CONCRE TE COLUMN TOP
40’
STEEL TO CONCRETE CONNECTION
D E TA I L 0 1
TRUSSES CONNECTION POINT
TRUSSES CONNECTION POINT
20’ CONCRE TE COLUMN TOP
PLAN VIEW
40’
B2
B4
STEEL TO CONCRETE CONNECTION
TRUSSES CONNECTION POINT
S I D E E L E VAT I O N
F R O N T E L E VAT I O N
S I D E E L E VAT I O N
F R O N T E L E VAT I O N
B2
65’ TRUSS TOP
B2
TRUSSES CONNECTION POINT
F R O N T E L E VAT I O N B4
B4
A6
B4
A6
D E TA I L 0 2
65’ TRUSS TOP
20’ CONCRE TE COLUMN TOP
30’
TRUSSES CONNECTION POINT
A6
20’ CONCRE TE COLUMN TOP
30’
TRUSSES CONNECTION POINT
B2
S I D E E L E VAT I O N
B2
S I D E E L E VAT I O N
B4
30’
B2
40’ COLUMN TOP
B4
30’
TRUSSES CONNECTION POINT
40’ COLUMN TOP
A6
I
Community center Community project - Erich Schonenbergen studio 2013 - In Process published Sculpting with pastas, discovering news shapes and anaylising their qualities. Creating new forms through an existing one. Then by understanding the shape of the new aggregation a new unit is created and 3D printed to be used as a new piece for a building. Besides, the analysis of the site in Coney Island, leaded to a ‘senstations map’ which shows the different feelings created by the environment - sound, light, wind, water... The resulting building is a community center acting as a shelter for people living in Coney Island. After Sandy storm they needed an emergency center to find help and information. This building is also participating in the daily life of the neighborhood with meeting rooms and activities for tourists and locals. The plan result in a dense aggregation of the different units, creating a close and intimate shelter with skylights dividing the space in different areas and the landscape makes the center safe during huricanes and playful during summer time.
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Research modelling - unit assembly and form diagrams
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Research - Pasta models and 3D printed models Experimental pasta models that inspired the unit model used for the final building.
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3D Printed Model
Community center
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Site analysis - Sensations map The map was made to understand the site depending on sound/wind/light and any ways of feeling the environement.
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Render and 3D Printed Model - view from the beach & from the street The center with the café, the sand left on the landscape creating topography and the changing cabins.
Community center
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Render - Interior view The building is lighten by skylights creating different spaces.
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Site plan - Progam The site is organized in a way to prevent hurricanes to flowd the area, protect the center and provide daily activities spaces.
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3D Printed Model - Close-up
Community center
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First Floor Plan - Elevated over the water it allows the citizens to find a shdelter when the area is flowded.
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Second Floor Plan - The skylights are open to the sky or creating an other
Roof Plan - The folds on the landscape create the entrance and the openings on the roof
level for private progrem
create skylights.
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Render - From the elevated pathway to the center
Community center
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Site section - North/South The landscape topography is thought in a way that the building wouldn’t be flowded even during a hurricane
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Render - Night view from the beach The center is meant to be a visual landmark for the residents. By night it illuminates and the light shines out from the skylights.
I
Folds study
Folds study
Fold Shelter
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Research - Folds, Pattern, Space and Unit Study
Refugee Shelter project - Vito Acconci studio 2016 The refugee crisis in the world is getting to a point where Folds study every Folds country has to welcome a certain amount of people. Folds study Folds studystudy
In France, several camps are ‘welcoming’ refugees but in the worst conditions. The idea here is to find a compromise between a settled shelter that the poupulation doesn’t want, a shelter comfortable enough to protect and confort the refugee but also a camp that merges into the landscape and the vernacular architecture. Exploring the movement and geometry of the fold is the starting point of this project. Through a serie of models, the exploration of space and its transformation lead to find a purpose. Each Folds study
fold is used to enhance the space and create life mendatory purposes such as water catchment, electricity or heat thanks
Agathe Ceccaldi - Spring2016 Midterm - Vito Acconci - 3/4
to solar panels. The tent is delivered flat and is then folded on site to create its shelter space. As a module it can be combined to create Folds study
FoldsFolds study Folds studystudy
bigger shelters. The skin is made of Tyvek and Reinforced by PVC pipes for the folding and solar panels for energy.
Openings study
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Section - PVC Pipe Structure, Solar Pannel Roof and Tyvek Skin
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Flatten pattern of the tent
SHELTER plan, sections and rendered sections
Plan of the folded tent
265
Patron 164
330
129
232
288 296 261
311 255
410
272
58
365
357
457
163
386
329
859
429
Solar Panels
151
Water catchment
LED light from solar panels
516
Door
464
328
Power from solar panels
50
16
417
33
489 581
Agathe Ceccaldi - Spring2016 - Vito Acconci
Fold Shelter
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Final Drawing - Part1: Camp Organization and Tent Requirements
SHELTER
Lightweight
Modular
Cheap
Easily build
Semi-permanent
Tyvek
PVC pipes
Agathe Ceccaldi - Spring2016 - Vito Acconci
Solar panel charger
Solar powered lights
Camp in january 2016
Cooking
ROOF - Angle for water catchement - Solar panels for power
see breath open close drink
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Final Drawing - Part2: Tent Program
Fold Shelter
Sleeping
Cooking
ROOF - Angle for water catchement - Solar panels for power - Waterproofed
see breath open close drink ...
Water catchment
Power
Water
Light
WALL - Porous
open close see breath ...
- Adaptable: open/ close for windows and doors - Structural
Double skin
- Waterproof
Stabilizing the structure
OUTDOOR - Shade - Cooking area
FLOOR - Waterproof - Rigid - Comfortable
cook meet sit see ...
Shadow
Trash
sleep cook sit ...
Shoes storage
Zzz Trash
Stabalized structure
Confort
Sitting outside
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Final Drawing - Part3: Render of the Camp in Calais and Modules Section
Fold Shelter
Cooking
Pratt Institute - New York Built Projects
II 05
Putnam canopy PrattSIDE project - Students association 2014/15 - Group project - In Process published
06
Compost Twist PrattSIDE project - Students association 2015/16 - Group project - In Process published
07
Fish Pond PrattSIDE project - Students association 2015/16 - Group project - In Process published
II
Putnam canopy PrattSIDE - Students association 2014/15 - In Process published Built project - October 2015 PrattSIDE is a student organization that help communities to find solutions through design. This project has been developed from september to october in partnership with the Pratt Center for Community Development and Taconic Fellowship and the Fulton Area Buisness Alliance. The Pratt Center allowed us to get a grant through the Taconic Fellowship and the FAB Alliance helped us communicating with the community in regards to their needs for this project. The installation is located on the Putnam Triangle, a new plaza created by a new closed portion of a road. This plaza is specifically used in the summer for events and the need for shade was important. We decided to build a canopy bringing shade to the plaza but also as a piece of art and a landmark for the neighborhood. The project was mainly constrained by the city DOT which has security rules for this kind of structure related to its height, materiality and construction. The limited budget and the fact that we built it ourselves were also big factors of the design. The final structure is a self-carried steel structure with concrete footing and rope weaving. The structure was cut and welded at Pratt Institute during summer time and assembled on site during four days with the rope weaving and concrete pouring. This installation is settled for eleven month and will then be moved to an other location.
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Shadow study, concept model and Community workshop
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Site plan - Putnam Triangle
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Circulation diagram
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Steel member sizing elevation
Putnam canopee
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Pre-fabrication pictures at Pratt Institute Welding, drilling and dry assembly - week before construction
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Concrete formwork and reinforcement & on site construction pictures
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Steel member sizing plan and on site construction pictures
Putnam canopee
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A-frame and Truss steel assembly & Details pictures
Putnam canopee
Putnam canopee
II
Compost Twist
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Garden Site Plan
PrattSIDE - Students association 2015/16 - In Process published Built project - April 2016 PrattSIDE is a student organization that help communities to find solutions through design. This project has been developed from september to october in partnership with the Pratt Center for Community Development and Taconic Fellowship and the Fulton Area Buisness Alliance. The Pratt Center allowed us to get a grant through the Taconic Fellowship and the FAB Alliance helped us communicating with the community in regards to their needs for this project. The 200 Lexington Community Block Association and The Clifton Place Block Association Community Garden are the partners for this project. The garden established in 1991 is located on the corner of Bedford and Clifton. The Garden developed from the community’s need to reclaim and transform the vacant city owned lot into a place of beauty. Since its establishment, Clifton Place Garden has served as a place where neighborly bonds are strengthened, the passion for gardening and nature is shared, friendships develop and neighborhood children learn. Clifton Place Garden is a growing community that continues to build ties with the community through collaboration with other organizations, online blog, and community workshops.
In collaboration with these two associations,
PrattSIDE is developing a composting youth participation as well as the redesign of the composting bin and fish pond for the garden.
Clifton Garden plan Scale unknown 02/11/16
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Axonometric of the Design Bin & Concrete Pouring Pictures
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Plan of the bin & Wood Structure Construction
Compost Twist
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Longitudinal Elevation and Section & Wood Structure Construction
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Side Elevation and Sections & Wood Structure Construction
Compost Twist
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Plexiglas Skin and Patterns
Compost Twist
II
Fish Pond
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Garden Site Plan
PrattSIDE - Students association 2015/16 - In Process published Built project - April 2016 PrattSIDE is a student organization that help communities to find solutions through design. This project has been developed from september to october in partnership with the Pratt Center for Community Development and Taconic Fellowship and the Fulton Area Buisness Alliance. The Pratt Center allowed us to get a grant through the Taconic Fellowship and the FAB Alliance helped us communicating with the community in regards to their needs for this project. The 200 Lexington Community Block Association and The Clifton Place Block Association Community Garden are the partners for this project. The garden established in 1991 is located on the corner of Bedford and Clifton. The Garden developed from the community’s need to reclaim and transform the vacant city owned lot into a place of beauty. Since its establishment, Clifton Place Garden has served as a place where neighborly bonds are strengthened, the passion for gardening and nature is shared, friendships develop and neighborhood children learn. Clifton Place Garden is a growing community that continues to build ties with the community through collaboration with other organizations, online blog, and community workshops.
In collaboration with these two associations,
PrattSIDE is developing a composting youth participation as well as the redesign of the composting bin and fish pond for the garden.
Clifton Garden plan Scale unknown 02/11/16
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New Fish Pond Construction - Hole Digging
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Cascade Structure Installation and Liner Installation
Fish Pond
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Cascade Construction and Pavement Installation
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Concrete Structure, Planting Outside and Inside the Pond
Fish Pond
Ecole Camondo - Paris Interior & Product Design
III 08 Vice Versa Box Interior Design - Sebastien Boissard studio 2011 09 Cavalcade truck Product Design - Averland/Tinel/Cuvellier studio 2011 10 Sitting/Working/Relaxing Product Design - Averland/Tinel/Cuvellier studio 2011
III
Vice Versa Box
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Concept diagram and Overal section of the building
Interior Design - Sebastien Boissard studio 2011 This project seek to refurbish a historical building situated in Paris Observatory garden. This famous international institution hosts research conferences all year long. This building is inteded to be a residence for the researchers who need an accommodation. The layout of the building should enable the international guests to live and work inside de site of the observatory. The average stay is between two to fifteen days. The visitors need a room to sleep, get clean and cook. The rooms should accomodate the guests on their own or with their family that is why the project seek to create a flexible space. The space is divided by a central block that is composed by bathrooms, kitchens and lockers. In these blocks, the lockers can move to create two single rooms or one bigger space. At the ground floor, the same concept gathers reception, cafeteria, small offices and a movable unit is used for the set up of inside and outside cocktails events. A room for disable on the groundfloor is also installed as no elevator is programmed. Each floor has four bedrooms - with a bathroom and a kitchenette each - to suit to the guests needs.
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The different room configurations 4 single/ 1 double and 2 single/ 2 double Groundfloor plan & typical rooms floor plan
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Detailled north-south section The box - Bathroom, sliding closet and second bathroom
Vice Versa Box
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Detailled east-west section The box - Bathroom, sliding closet and shower
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Detailed plan of two typical rooms that can be separeted or coupled
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Render - single bedroom and family bedroom
III
Cavalcade truck Product Design - Averland/Tinel/Cuvellier studio 2011 In Paris suburbs, between Dourdan and the capital a train crosses 21 towns. The youth, elderly and families from these suburbs don’t have much cultural spaces to visit or gather. Trains cross all the towns and should be a way to access culture for the residents from the different areas. The idea is to enahnce the connection between those towns through this shared connection that is the train. A common space will travel from one to the other town to share informations and culture. Creating a moving cultural space will allow to revival the train stations, the line and the towns. Working as a satelite attached to a main theater which will allow mutlidisciplinary events. The space could then become a cultural space as much as relaxing, discovering and gathering place. Taken from the circus name for the cars that were announcing the show, Cavalcade is a truck-stage, it is a moving and transformable object. The stage is attached to the truck and is developed by unfolding and sliding the different parts depending on the need. The flexibility is achievable through the ceiling, the walls and the floor.
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Travel plan of the Cavalcade truck Exploded axonometric of the truck
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Night render All sides open play
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Front and back sections with Open&close options
Cavalcade truck
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Plan with all the deployable space
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Side section with Open&close options
III
Sitting/Working/Relaxing Product Design - Averland/Tinel/Cuvellier studio 2011-2014 These three projects are a selection of product design project. They represent different ideas thinking about furniture and design: mobility, materiality, adaptation, function and poetry.
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Cork and steel stool Reverse it depending on your need
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Avi aluminum light Open and close with your concentration and your need of light
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Fontis swiging tap The only source of water in the bathroom, swing it to get water for your bath or your sink
Research/Experimentation
IV -- Fabrication Digital and kinetics - Jeffrey Taras/R Zacharian 2014/15/16 -- Sketches 2014/15/16
IV
Fabrication
Digital and kinetics - Jeffrey Taras/R Zacharian 2014/15/16 These projects are a serie of experimentation in digital
fabrication and kinetic sculpture using CNC, laser cutting and hand skills. The materials used are MDF, basewood, plastic and paper.
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Digital fabricated scupture GRasshopper-CNC Frame and plastic melted panels
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Kinetic sculpture serie Crank slider/ Cam/ Scotch Yoke Models pictures and motion
IV
Sketches
Agathe Ceccaldi Selected Work 2016
Thank you! Agathe Ceccaldi +1(646)275-2494 agathececcaldi@gmail.com