Brief Works
-
Upload
grace-hall -
Category
Documents
-
view
217 -
download
2
description
Transcript of Brief Works
The forest is a matrix of verticality, repitition and the variable. It speaks it own language within itself. The Forest Language Sauna draws inspiration from this dialogue.
Grace Hall
A FOREST LANGUAGE
Savusauna at Muuratsalo
Use of “reference” m
olds help
keep shap
e during
bend
ing stag
e. These m
olds are first erected
on the site. They are constructed out of a
conventional wood
framing
system and
are bolted
together at the joints
allowing
for easy removal once “w
oven” structure is in place.
. . .
The prim
ary mem
bers are “w
oven” forming
the main structural
comp
onents of the brid
ge. These are then b
olted to one another. In this
fashion the bent com
ponents keep
the form offered
to them b
y the reference p
oints dictated
by the m
olds.
. . .
Once the m
olds are rem
oved the b
olted w
oven construct of the brid
ge
remains in form
. The structural geom
etry is revealed and
the decking
can b
e laid.
. . .
CO
CO
ON
Grace H
all | Caroline M
oinel | Ksenia R
akovskaya | Lauri Salm
inen
The river speaks in the psuedo-chaotic logic of paths and reactions. Flowing around
stones it adjusts its course in the graceful arches dictated by its natural law. The
bend through the structure creating an equilibrium. A
s one crosses the bridge these forces display them
selves in woven joints that fractal the environm
ent into human
scale “window
s”.
The construction of the Cocoon bridge utilizes three tem
porary circular supports. These are erected w
ith the purpose of creating the reference points necessary to plot the load bearing geodesic glue-lam
ent arches in three dimensional space. The
the structure is complete the tem
porary supports are removed, allow
ing the system
to reach a stable equilibrium w
ithin itself.
Use of “reference” m
olds help
keep shap
e during
bend
ing stag
e. These m
olds are first erected
on the site. They are constructed out of a
conventional wood
framing
system and
are bolted
together at the joints
allowing
for easy removal once “w
oven” structure is in place.
. . .
The prim
ary mem
bers are “w
oven” forming
the main structural
comp
onents of the brid
ge. These are then b
olted to one another. In this
fashion the bent com
ponents keep
the form offered
to them b
y the reference p
oints dictated
by the m
olds.
. . .
Once the m
olds are rem
oved the b
olted w
oven construct of the brid
ge
remains in form
. The structural geom
etry is revealed and
the decking
can b
e laid.
. . .
Use of “reference” m
olds help keep shape during
bending stage.
These m
olds
constructed out of a conventional wood
framing system
and are bolted together at the joints allow
ing for easy removal
once “woven” structure is in place.
The prim
ary m
embers
are “w
oven form
ing the main structural com
ponents of the bridge. These are then bolted to one another. In this fasion the bent com
ponents keep the form offered to
them by the reference points dictated by
the molds.
Once the m
olds are removed the bolted
woven construct of the bridge rem
ains in
forme.
The structural
geometry
is revealed and the decking can be laid.
construction process
insertion in its environment
plan
section
Use of “reference” m
olds help
keep shap
e during
bend
ing stag
e. These m
olds are first erected
on the site. They are constructed out of a
conventional wood
framing
system and
are bolted
together at the joints
allowing
for easy removal once “w
oven” structure is in place.
. . .
The prim
ary mem
bers are “w
oven” forming
the main structural
comp
onents of the brid
ge. These are then b
olted to one another. In this
fashion the bent com
ponents keep
the form offered
to them b
y the reference p
oints dictated
by the m
olds.
. . .
Once the m
olds are rem
oved the b
olted w
oven construct of the brid
ge
remains in form
. The structural geom
etry is revealed and
the decking
can b
e laid.
. . .
Wood Program semester : 1 Professor : Pekka Heikenen
Savusauna at Murratsalo The site ...
Design and construct a new savusauna for Alvar Aalto’s Experimental House at Murratsalo in Jyväskylä, Finland. The new sauna would act in stead of Aalto’s sauna as his was being retired from use due to accumulated flammable noki or soot.
The task ...
Alvar Aalto’s Experimental House at Murrasalo
The proposal ... Forest Language The forest is interpreted and distilled as an abstract field of verticality. In order to affect the site as little as pos-sible the architecture mimicks this abstraction. By taking varying standard dimensions of sawn timber and orient-ing them vertically on their short axis a cladding system forms. Meanwhile an Aalto inspired slope give tribute to the monument on the bluff while allowing the copious snowfall to slide away, relieving the structure. For rest after sauna the construct offers amphitheater seating with a few of the lake. Inside the heat-room the ki-aus (stove) is lowered to floor level; an uncommon occurrence in traditional sauna. This equates to better loki (sau-na steam), and more comfortable lauteiden ( sauna benches).
Plan - 1/50 scale
Footbridge in FiskarsThe site ...
Create a footbridge that connects the artisan’s homes and their workshops. The task ...
An 8m river crossing in the historic town of Fiskars, known historically for its tool fabrication and presently for its artisin wooden furniture production.
The proposal ... Cocoon The river speaks in the psuedo-chaotic logic of paths and reactions. Flowing around stones it adjusts its course in graceful arches dictated by its natural law. The Cocoon bridge takes this dance of paths as a structural prec-edent. Forces flow and bend through the structure creating an equilibrium. As one crosses the bridge these forces display themselves in woven joints that fractal the enviornment into human scale “windows” The construction of the Cocoon bridge utilizes three temporary circular supports. These are erected with the purpose of creating the refernce points necessary to plot the load bearing geodesic glue-lament arches in three dimensional space. Once the structure is complete the temporary supports are removed, allowing the system to reach a stable equilibrum within itself.
Use of “reference” molds help keep shape during bending stage. These molds are first erected on the site. They are constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
. . .
The primary members are “woven” forming the main structural components of the bridge. These are then bolted to one another. In this fashion the bent components keep the form offered to them by the reference points dictated by the molds.
. . .
Once the molds are removed the bolted woven construct of the bridge remains in form. The structural geometry is revealed and the decking can be laid.
. . .
COCOONGrace Hall | Caroline Moinel | Ksenia Rakovskaya | Lauri Salminen
The river speaks in the psuedo-chaotic logic of paths and reactions. Flowing around stones it adjusts its course in the graceful arches dictated by its natural law. The
bend through the structure creating an equilibrium. As one crosses the bridge these forces display themselves in woven joints that fractal the environment into human scale “windows”.
The construction of the Cocoon bridge utilizes three temporary circular supports. These are erected with the purpose of creating the reference points necessary to plot the load bearing geodesic glue-lament arches in three dimensional space. The
the structure is complete the temporary supports are removed, allowing the system to reach a stable equilibrium within itself.
Use of “reference” molds help keep shape during bending stage. These molds are first erected on the site. They are constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
. . .
The primary members are “woven” forming the main structural components of the bridge. These are then bolted to one another. In this fashion the bent components keep the form offered to them by the reference points dictated by the molds.
. . .
Once the molds are removed the bolted woven construct of the bridge remains in form. The structural geometry is revealed and the decking can be laid.
. . .
Use of “reference” molds help keep shape during bending stage. These molds
constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
The primary members are “woven forming the main structural components of the bridge. These are then bolted to one another. In this fasion the bent components keep the form offered to them by the reference points dictated by the molds.
Once the molds are removed the bolted woven construct of the bridge remains in forme. The structural geometry is revealed and the decking can be laid.
construction process
insertion in its environment
plan
section
Use of “reference” molds help keep shape during bending stage. These molds are first erected on the site. They are constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
. . .
The primary members are “woven” forming the main structural components of the bridge. These are then bolted to one another. In this fashion the bent components keep the form offered to them by the reference points dictated by the molds.
. . .
Once the molds are removed the bolted woven construct of the bridge remains in form. The structural geometry is revealed and the decking can be laid.
. . .
Use of “reference” molds help keep shape during bending stage. These molds are first erected on the site. They are constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
. . .
The primary members are “woven” forming the main structural components of the bridge. These are then bolted to one another. In this fashion the bent components keep the form offered to them by the reference points dictated by the molds.
. . .
Once the molds are removed the bolted woven construct of the bridge remains in form. The structural geometry is revealed and the decking can be laid.
. . .
COCOONGrace Hall | Caroline Moinel | Ksenia Rakovskaya | Lauri Salminen
The river speaks in the psuedo-chaotic logic of paths and reactions. Flowing around stones it adjusts its course in the graceful arches dictated by its natural law. The
bend through the structure creating an equilibrium. As one crosses the bridge these forces display themselves in woven joints that fractal the environment into human scale “windows”.
The construction of the Cocoon bridge utilizes three temporary circular supports. These are erected with the purpose of creating the reference points necessary to plot the load bearing geodesic glue-lament arches in three dimensional space. The
the structure is complete the temporary supports are removed, allowing the system to reach a stable equilibrium within itself.
Use of “reference” molds help keep shape during bending stage. These molds are first erected on the site. They are constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
. . .
The primary members are “woven” forming the main structural components of the bridge. These are then bolted to one another. In this fashion the bent components keep the form offered to them by the reference points dictated by the molds.
. . .
Once the molds are removed the bolted woven construct of the bridge remains in form. The structural geometry is revealed and the decking can be laid.
. . .
Use of “reference” molds help keep shape during bending stage. These molds
constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
The primary members are “woven forming the main structural components of the bridge. These are then bolted to one another. In this fasion the bent components keep the form offered to them by the reference points dictated by the molds.
Once the molds are removed the bolted woven construct of the bridge remains in forme. The structural geometry is revealed and the decking can be laid.
construction process
insertion in its environment
plan
section
Use of “reference” molds help keep shape during bending stage. These molds are first erected on the site. They are constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
. . .
The primary members are “woven” forming the main structural components of the bridge. These are then bolted to one another. In this fashion the bent components keep the form offered to them by the reference points dictated by the molds.
. . .
Once the molds are removed the bolted woven construct of the bridge remains in form. The structural geometry is revealed and the decking can be laid.
. . .
1m 4m
Use of “reference” molds help keep shape during bending stage. These molds are first erected on the site. They are constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
. . .
The primary members are “woven” forming the main structural components of the bridge. These are then bolted to one another. In this fashion the bent components keep the form offered to them by the reference points dictated by the molds.
. . .
Once the molds are removed the bolted woven construct of the bridge remains in form. The structural geometry is revealed and the decking can be laid.
. . .
COCOONGrace Hall | Caroline Moinel | Ksenia Rakovskaya | Lauri Salminen
The river speaks in the psuedo-chaotic logic of paths and reactions. Flowing around stones it adjusts its course in the graceful arches dictated by its natural law. The
bend through the structure creating an equilibrium. As one crosses the bridge these forces display themselves in woven joints that fractal the environment into human scale “windows”.
The construction of the Cocoon bridge utilizes three temporary circular supports. These are erected with the purpose of creating the reference points necessary to plot the load bearing geodesic glue-lament arches in three dimensional space. The
the structure is complete the temporary supports are removed, allowing the system to reach a stable equilibrium within itself.
Use of “reference” molds help keep shape during bending stage. These molds are first erected on the site. They are constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
. . .
The primary members are “woven” forming the main structural components of the bridge. These are then bolted to one another. In this fashion the bent components keep the form offered to them by the reference points dictated by the molds.
. . .
Once the molds are removed the bolted woven construct of the bridge remains in form. The structural geometry is revealed and the decking can be laid.
. . .
Use of “reference” molds help keep shape during bending stage. These molds
constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
The primary members are “woven forming the main structural components of the bridge. These are then bolted to one another. In this fasion the bent components keep the form offered to them by the reference points dictated by the molds.
Once the molds are removed the bolted woven construct of the bridge remains in forme. The structural geometry is revealed and the decking can be laid.
construction process
insertion in its environment
plan
section
Use of “reference” molds help keep shape during bending stage. These molds are first erected on the site. They are constructed out of a conventional wood framing system and are bolted together at the joints allowing for easy removal once “woven” structure is in place.
. . .
The primary members are “woven” forming the main structural components of the bridge. These are then bolted to one another. In this fashion the bent components keep the form offered to them by the reference points dictated by the molds.
. . .
Once the molds are removed the bolted woven construct of the bridge remains in form. The structural geometry is revealed and the decking can be laid.
. . .
1m 4m
Use of “reference” m
olds help
keep shap
e during
bend
ing stag
e. These m
olds are first erected
on the site. They are constructed out of a
conventional wood
framing
system and
are bolted
together at the joints
allowing
for easy removal once “w
oven” structure is in place.
. . .
The prim
ary mem
bers are “w
oven” forming
the main structural
comp
onents of the brid
ge. These are then b
olted to one another. In this
fashion the bent com
ponents keep
the form offered
to them b
y the reference p
oints dictated
by the m
olds.
. . .
Once the m
olds are rem
oved the b
olted w
oven construct of the brid
ge
remains in form
. The structural geom
etry is revealed and
the decking
can b
e laid.
. . .
CO
CO
ON
Grace H
all | Caroline M
oinel | Ksenia R
akovskaya | Lauri Salm
inen
The river speaks in the psuedo-chaotic logic of paths and reactions. Flowing around
stones it adjusts its course in the graceful arches dictated by its natural law. The
bend through the structure creating an equilibrium. A
s one crosses the bridge these forces display them
selves in woven joints that fractal the environm
ent into human
scale “window
s”.
The construction of the Cocoon bridge utilizes three tem
porary circular supports. These are erected w
ith the purpose of creating the reference points necessary to plot the load bearing geodesic glue-lam
ent arches in three dimensional space. The
the structure is complete the tem
porary supports are removed, allow
ing the system
to reach a stable equilibrium w
ithin itself.
Use of “reference” m
olds help
keep shap
e during
bend
ing stag
e. These m
olds are first erected
on the site. They are constructed out of a
conventional wood
framing
system and
are bolted
together at the joints
allowing
for easy removal once “w
oven” structure is in place.
. . .
The prim
ary mem
bers are “w
oven” forming
the main structural
comp
onents of the brid
ge. These are then b
olted to one another. In this
fashion the bent com
ponents keep
the form offered
to them b
y the reference p
oints dictated
by the m
olds.
. . .
Once the m
olds are rem
oved the b
olted w
oven construct of the brid
ge
remains in form
. The structural geom
etry is revealed and
the decking
can b
e laid.
. . .
Use of “reference” m
olds help keep shape during
bending stage.
These m
olds
constructed out of a conventional wood
framing system
and are bolted together at the joints allow
ing for easy removal
once “woven” structure is in place.
The prim
ary m
embers
are “w
oven form
ing the main structural com
ponents of the bridge. These are then bolted to one another. In this fasion the bent com
ponents keep the form offered to
them by the reference points dictated by
the molds.
Once the m
olds are removed the bolted
woven construct of the bridge rem
ains in
forme.
The structural
geometry
is revealed and the decking can be laid.
construction process
insertion in its environment
plan
section
Use of “reference” m
olds help
keep shap
e during
bend
ing stag
e. These m
olds are first erected
on the site. They are constructed out of a
conventional wood
framing
system and
are bolted
together at the joints
allowing
for easy removal once “w
oven” structure is in place.
. . .
The prim
ary mem
bers are “w
oven” forming
the main structural
comp
onents of the brid
ge. These are then b
olted to one another. In this
fashion the bent com
ponents keep
the form offered
to them b
y the reference p
oints dictated
by the m
olds.
. . .
Once the m
olds are rem
oved the b
olted w
oven construct of the brid
ge
remains in form
. The structural geom
etry is revealed and
the decking
can b
e laid.
. . .
1m4m
Footbridge at Fiskars ( team project )
KOE Savusauna for World Design Capital 2012 Helsinki ( team project )
Forest Music Center in Joutseno
Fire Station in Alexandria
Urban Landscape Observatory in Cincinnati
Parallax Observatory in Bryson City
Topography Cube 20X20Topography Cube 20X20
Topography Cube