2. Born : 28 July 1951
Benimàmet, Valencia, Spain
Nationality : Spanish
Education : Polytechnic University Of Valencia
Swiss Ferdral Institute Of Technology
Santiago Calatrava Valls is a Spanish architect, sculptor and
structural engineer whose principal office is in Zurich, Switzerland.
He has office in Zurich, Paris and in New York, Where he now
resides.
3. Calatrava's early career was largely dedicated to bridges and railway stations, with
designs that elevated the status of civil engineering projects to new heights.
His Montjuic Communications Tower in Barcelona, Spain (1991) in the heart of the 1992
Olympics site, as well as the Allen Lambert Galleria in Toronto, Canada (1992), were
important works and turning points in his career, leading to a wide range of
commissions. The Quadracci Pavilion (2001) of the Milwaukee Art Museum was his first
building in the United States. Calatrava's entry into high-rise design began with an
innovative 54-story-high twisting tower called Turning Torso (2005), located in Malmö,
Sweden.
4.
5. Works of antony Gaudi
Human figure and nature’s creativity
Experimentation with materials and their properties
6.
7.
8. Blends impressive visual style and the strict rules of engineering
Symbolic AND recognizable the world over for the sense of movement captureD in a
stationary object.
Long sweeping lines, stark white materials and a flawless use of glass and light.
Had a definite vision of inside and outside, the concave and convex, of how we face
the specific world
11. HSB Turning Torso is
one of the tallest
residential buildings in
Europe and holds
apartments, offices and
meeting facilities.
The vision of HSB
Turning Torso is based
on a sculpture called
Twisting Torso by
Santiago Calatrava
himself. Inspiration from
the human body in a
twisting motion.
12. 190 metres high
Consists of nine cubes with five floors each
Together with intermediate floors a total of 54
floors
Each floor has 400m² of available space.
147 apartments from cube three to nine.
Meeting facilities on the two top floors.
Each floor consists of a square part around
the core and a triangular part which is
supported by an external steel structure.
The entire construction twists 90 degrees on
its way up with each floor tilting by 1.6
degrees
13. • Ground breaking 14th Feb 2001
• Construction started June 2001
• Casting of foundation March 2002
• Foundations complete August 2002
• Completion date November 2005
14. FA C A D
E
•facade is a glass and aluminum construction
•2,800 panels and 2,250 windows
•Follow the twist of the building, the windows are
leaning either inwards or outwards by 0 to 7
degrees.
R O TAT I O N
OF FLOORS
Forms for the floors were rotated approx. 1.6
degrees for each floor in order to create the
characteristic twist of the building.
15. OUTER STEEL
S U P O RT A N D
SPINE
•The steel support is a welded construction with a very
thorough paint treatment for optimal protection against
corrosion.
•The outer steel support consists of a steel column
and 20 horizontal and 18 diagonal ”steel cigars”
16. LIFTS
•3 lifts service the residential part of the
building and HSB Turning Torso Meetings
•Two separate lifts service the offices :
ensures high capacity and minimum
waiting even during “rush hour” and in
the instances when a lift is closed for
maintenance.
17. SHEETING &
F O U N D AT I O N S
Foundation: built directly on the
limestone bedrock.
Profiled steel plates, forming the
foundation shaft, were driven 15 m.
into the ground and a further 3m into
the limestone bedrock
Concrete beams, poured at regular
intervals on the inside of the sheeting
to stabilize the steel lining against the
pressure of the soil outside
Concrete construction was poured
onto the bedrock, 30 meters in
diameter and 7 meters thick
18. CLIMBING
FORMS
AND
BEAMS
Each cube were made with socalled self-compacting concrete.
Because of its flow capacity, this
type of concrete does not need
vibrating.
19. • The total commercial space is
approximately 4,000 m² in the lower two
cubes i.e. 10 floors.
•The commercial area has its own lifts and
all conceivable comforts in heating,
cooling and IT systems.
•The top 2 floors(53rd & 54th) are used
primarily for meetings.
There are 147 Apartments spread
across the 6 floors.
20.
21. Apart from the fact that he made the building similar to one of his award winning
marble design,Calatrava wanted the people residing/working in the building to have a
360 degree Panoramic view of the beauty that surrounded the building.
N
22.
23. INCLINED ARCH
BRIDGE BY
CALATRAVA OVER
THE RIVER LOIRE
ORLEANS, FRANCE
THE ARCH IS
INCLINED INWARDS
AT ANGLE OF 68
DEGREES
LOCATED ON ONE
SIDE OF BRIDGE
DECK & AS TALL AS 8
FLOORS(25 M)
25. PIERS - REINFORCED CONCRETE
ARCH - STEEL
SUSPENDERS - STEEL
ABUTMENTS - REINFORCED
CONCRETE
MAIN SPAN - 200 M
TOTAL LENGTH - 470 M
DECK WIDTH - 26 M
4 TRAFFIC LANES
2 CYCLE PATHS AND 2 WALKWAYS
26. THE DECK IS ASSYMMERTRICAL AND CURVED FROM BOTTOM
THE DECK REPRESENTS A SHIP’S HULL AND THE
ARCH REPRESENTS MAST OF THE BOAT
THE DEPTH OF THE BOX GIRDER IS 3.25 M
THE WIDTH IS MAXIMUM AT THE CENTRE
27. EACH TRIPOD HAS ONE
FINGER ALONG :
(BLUE) THE VISUAL
CONTINUATION OF THE
ARCH
COMPRESSIVE
FORCES FROM ARCH
(RED) IN THE SAME
PLANE SUPPORTING
THE SPAN OF ARCH
(ORANGE) THE THIRD
SUPPORTS THE WIDTH
OF THE DECK
28. THE HANGERS
STABLIZE THE ARCH
AND DISTRIBUTE THE
FORCE CREATED BY
THE INCLINATION,ON
THE DECK.
THE CABLES ARE
PLACED EVERY 4.2 M IN
THE PLANE OF ARCH
THE CABLES HAVE A
DIA OF 5.5 CM &THE
ONES CONNECTING
THE EXTERIOR SIDE
HAVE A DIA OF 3.6 CM
29.
30. Designed by Calatrava,its
construction was started in
1998 and got completed
on 20th December 2001
It is a foot bridge and is
held in its place by
cantelevers(a design
pioneered by Calatrava)
31. •Cantilever spar cable-stayed bridge (this design
has been pioneered by Calatrava)
•Was built by the company URSSA, at its plant in
Victoria, in Bilbao, Spain, and brought to Buenos
Aires in several shipments.
•One stabilizing pylon, pointing skyward at a 45degree angle
•Its design represents a couple dancing tango unique asymmetrical arrangement
•White pylon represents the man with rope holding
the central curvature of the bridge that symbolizes
the woman – a typical step of tango.
•Footbridge
32. •Has two fixed sections and
one movable part
•The pylon has cables
suspending the part of the
bridge that rotates 90
degrees in order to allow
water traffic to pass
•When it swings the far end
comes to a resting point
•The rotary section relies on
a central pile of white
concrete that houses the
rotating mechanism
•It has a unique rotation
mechanism; it’s one of the
biggest of the world, with 20
electric engines commanded
by a computer
33.
34. The metal structure of the
bridge has been entirely
made of steel and the
straps (suspendors) are
made up of galvanized
steel wires of high
resistance of circular
section
•The big inclinated pylon it
is formed by sheets of
steel of different
thicknesses with rigid
material interiors
35. •Total length: 170 m
•Central rotating span: 102
m
•Width of deck: 6,20 m
•Height of pylon: 39 m
•Weight: 800 tons
•Time to open: less than 2
min
•Sustaining cables: 19
36.
37. •Santiago Calatrava exemplifies sculptural expression and engineering through architecture.
Calatrava’s work is like music: well orchestrated
•Even though his buildings are known for their aesthetics, they never compromise on the
grounds of functionality
•He builds energy efficient structures
•The fact that much of his work is centred around
water adds a further dimension to his work.
•His designs are sometimes criticized for impracticality
•All his designs are not economical
•The trainstation Gare do Oriente in Lisbon is known for being very uncomfortable, especially with
wind and rainy weather.