The bundled tube structure meant that "buildings no longer need be boxlike in appearance: they could become sculpture." Hybrids. Hybrids include a varied category of structures where the basic concept of tube is used, and supplemented by other structural support(s).
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3. INTRODUCTION
The tube is the name given to the systems where in order to
resist lateral loads (wind, seismic, etc.) a building is designed to act like a
three-dimensional hollow tube. The system was introduced by Fazlur
Rahman Khan while at Skidmore, Owings and Merrill's (SOM) Chicago
office. The first example of the tube’s use is the 43-story Khan-designed
DeWitt-Chestnut Apartment Building in Chicago, Illinois, completed in
1963.
The system can be constructed using steel, concrete, or composite
construction (the discrete use of both steel and concrete). It can be used
for office, apartment and mixed-use buildings. Most buildings in excess
of 40 stories constructed in the United States since the 1960s are of this
structural type.
4. CONCEPT
The tube system concept is based on the idea that a building can be
designed to resist lateral loads by designing it as a hollow cantilever
perpendicular to the ground.
In the simplest incarnation of the tube, the perimeter of the exterior
consists of closely spaced columns that are tied together with deep
beams through moment connections. This assembly of columns and
beams forms a rigid frame that amounts to a dense and strong structural
wall along the exterior of the building.
This exterior framing is designed sufficiently strong to resist all lateral
loads on the building, thereby allowing the interior of the building to be
simply framed for gravity loads. Interior columns are comparatively few
and located at the core.
The distance between the exterior and the core frames is spanned
with beams or trusses. This maximizes the effectiveness of the perimeter
tube by transferring some of the gravity loads within the structure to it
and increases its ability to resist overturning due to lateral loads.
5. HISTORY
Since 1963, a new structural system of framed tubes appeared in
skyscraper design and construction.
Fazlur Khan defined the framed tube structure as "a three dimensional
space structure composed of three, four, or possibly more frames,
braced frames, or shear walls, joined at or near their edges to form a
vertical tube-like structural system capable of resisting lateral forces in
any direction by cantilevering from the foundation."Closely spaced
interconnected exterior columns form the tube. Horizontal loads, for
example wind, are supported by the structure as a whole. About half the
exterior surface is available for windows. Framed tubes allow fewer
interior columns, and so create more usable floor space. Where larger
openings like garage doors are required, the tube frame must be
interrupted, with transfer girders used to maintain structural integrity.
6. The first building to apply the tube-frame construction was the DeWitt-
Chestnut apartment building which Khan designed(1963) and was
completed in Chicago by 1965. This laid the foundations for the tube
structures of many other later skyscrapers, including his own John
Hancock Center and Willis Tower, and can been seen in the construction
of the World Trade Center, Petronas Towers, Jin Mao Building, and most
other supertall skyscrapers since the 1960s. The strong influence of tube
structure design is also evident in the construction of the current tallest
skyscraper, the Burj Khalifa.
Contd…..
12. FRAMED TUBE SYSTEM
This is the simplest incarnation of the tube. Closely spaced
perimeter columns interconnected by beams.
It can take a variety of floor plan shapes from square and
rectangular, circular. This design was first used in Chicago's
DeWitt-Chestnut apartment building, designed by Khan and
completed in 1965, but the most notable examples are the
Aon Center and the destroyed World Trade Center towers.
13. FRAMED TUBE SYSTEM
• Closely spaced perimeter columns interconnected
by deep spandrels.
• Whole building works as a huge vertical cantilever
to resist overturning moments.
• Efficient system to provide lateral resistance with
or without interior columns.
• Exterior tube carries all the lateral loading.
• Gravity loading is shared between the tube and
the interior columns or walls, if they exist.
14. SHEAR LAG :-
(a) (b)
If the tube loaded on side AB, then the whole frames AB and
CD are called ‘Flange frames’ and the frames AD and BC are
called ‘Web frame’
Cont…
15. The forces in the web frame are growing smaller toward
the center linearly instead in Fig(b) this phenomenon is
called Shear lag.
The ratio of the stress at the center column to the stress
at the corner column is defined as ‘Shear-lag factor’.
Stress distribution of the flange and web column -
opposite sides of the neutral axis are subjected to tensile
and compressive forces - under lateral load - Fig. (b)
The prime action is the flexibility of the spandrel beams
Athat produces a shear lag that will increases the stresses
in the corner column and reduces those in the inner
columns of both the flange panels AB and DC and the web
panels AD and BC
Cont…
16. TUBE IN A TUBE SYSTEM
An outer framed tube together with an
internal elevator and service core.
The outer and inner tubes act jointly in
resisting both gravity and lateral loading in
steel-framed buildings.
More effective in high-rise structure because
the bending and transverse shears are
supported three-dimensionally at the flange
and web surface in the structure.
The analysis of tube structures has to be
based on three-dimensional analysis using
finite element.
17. Proportioning:
30m minimum floor dimension
Centrally stability core around lifts/stairs,
moment frame around perimeter
30 to 60 floor, 100 to 160m height
Clear floor plates, but wide perimeter columns
and deep perimeter beam constrains view
Traditionally 2 or 3 zone elevator arrangement,
but would benefit from optimization using
double decks or sky lobbies.
Cont…
18. Behavior of Tube in Tube Tall Building
(a) Deform shape of frame;
(b) Deform shape of shear wall;
(c) Deform shape of composite structure
Cont…
• Respond as a unit to lateral forces
• The reaction to wind is similar to that of
a frame and shear wall structure
• The wall deflects in a flexural mode with
concavity downwind and maximum slope
at the top, while the frame deflect in a
shear mode with concavity upwind and
maximum slope at the base
• Composite structure - flexural profile in
the lower part and shear profile in the
upper part.
• The axial forces cause the wall to
restrain the frame near the base and the
frames to restrain the wall at the top
19. • The deflection & wall moment curve indicate the reversal in curvature with
a point of inflexion, above which the wall moment is opposite in sense to
that in a free cantilever (fig-a & b)
• Fig-c - The shear is uniform over the height of the frame, except near the
base where it reduces to a negligible amount
• At the top, (where the external shear is zero), the frame is subjected to a
significant positive shear - balanced by an equal negative shear at top of
the wall, with a corresponding concentrated interaction force acting
between the frame and the wall.
Cont… (a) (b) (c)
20. Advantages:
The wind- resisting system located on the perimeter of the
building – more resistance to overturning moments.
Core framing leads to a significant gain in rentable space.
Identical framing for all which are no subjected to varying
internal forces due to lateral loads.
From a practical point of view, the final analysis and design
of the tube can proceed unaffected by the lengthy process
of resolving detail layout and service requirements in the
core area.
Cont…
21. BUNDLED TUBE
Instead of one tube, a building consists of several tubes
tied together to resist the lateral forces. Such buildings
have interior columns along the perimeters of the tubes
when they fall within the building envelope. Notable
examples include Willis Tower and One Magnificent Mile.
The bundle tube design was not only highly efficient in
economic terms, but it was also "innovative in its potential
for versatile formulation of architectural space. Efficient
towers no longer had to be box-like; the tube-units could
take on various shapes and could be bundled together in
different sorts of groupings." The bundled tube structure
meant that "buildings no longer need be boxlike in
appearance they could become sculpture."
22. • It is a cluster of individual tubes connected together
to act as a single unit
• Maintain a reasonable slenderness (i.e., height-to-
width) ratio – Neither excessively flexible and nor
sway too much
• Cross walls or cross frames – increases three-
dimensional response of the structure.
• The 110-story Sears Tower completed in 1974 was the
first bundled tube structure in which nine steel
framed tubes are bundled at the base
• Individual tubes could be of different shapes, such as
rectangular, triangular or hexagonal as is
demonstrated by this building
Cont…
24. • Also known as ‘Trussed Tube’ or ‘Exterior Diagonal-tube System’
- utilized for greater heights, and allows larger spacing between
the columns
• Steel buildings-steel diagonals/trusses used
• Reinforced concrete buildings-diagonals are created by filling the
window openings by reinforced concrete shear walls -diagonal
bracing
• Braced tube structures are lateral load-resisting systems-
Located at the building perimeters made the structural systems
for tall buildings much more efficient and economical.
• The most notable examples are the John Hancock Center, the
Citigroup Center, and the Bank of China Tower.
BRACED TUBE SYSTEM
25. Behavior under Gravity loading:-
(a) - Intermediate columns will displace downward by more than
corresponding points on the diagonal- controlled by the vertical
displacement of the less highly stressed corner columns.
(b) - Downward forces on each diagonal are carried at its ends by
the corner columns - compressive forces are increased at each
intersection with a diagonal = equalization of the stresses in the
intermediate and corner columns.
Cont…
26. Behavior under lateral loading:-
a) If the diagonals are initially disconnected from the intermediate columns, the
columns and diagonals of the face will be in tension while the spandrels are in
compression .
Because of the shear lag effect the intermediate columns will now be less highly
stressed than the corner columns. the connection points on the diagonals will be
displaced upward by more than the corresponding points on the unconnected
intermediate columns.
b) If the diagonals and intermediate columns are connected together, iterative vertical
forces will be mobilized
These upward forces cause an increase in tension in the intermediate columns
27. Building Year Stories
(Height/Width
)
Structural
System
Steel Usage
in psf
Empire State
Building, NY
1931 102 (9.3) Braced Rigid
Frame John
42.2
Hancock Center,
Chicago
1968 100 (7.9) Braced Tube 29.7
World Trade
Center(Demolishe
d), NY
1972 110 (6.9) Framed Tube 37.0
Sears Tower,
Chicago
1974 109 (6.4) Bundled Tube 33.0
28. Types Material /
Configurat
ion
Efficient
Height
Limit
Advantages Disadvantages Building
Examples
Framed
Tube
Steel 80
Efficiently resists lateral
loads by locating lateral
systems at the building
perimeter.
Shear lag hinders true
tubular behavior.
Narrow column spacing
obstructs the view.
Aon Center
(Chicago, USA,
83 stories, 346
m)
Concrete 60 Water Tower
Place (Chicago,
USA, 74 stories,
262 m)
Braced Tube
Steel 100 (With
Interior
Columns) –
150
(Without
Interior
Columns)
Efficiently resists lateral
shear by axial forces in
the diagonal members.
Wider column spacing
possible compared with
framed tubes. Reduced
shear lag.
Bracings obstruct the
view.
John Hancock
Center (Chicago,
USA, 100 stories
344 m)
Concrete 100 Onterie Center
(Chicago, 58
stories, 174 m),
780 Third Avenue
(New York, USA,
50 stories, 174
m)
Comparison of Tube Systems
29. Types Material /
Configuratio
n
Efficient
Height
Limit
Advantages Disadvantages Building
Examples
Bundled
Tube
Steel 110
Reduced shear lag.
Interior planning
limitations due to the
bundled tube
configuration.
Sears Tower
(Chicago, USA,
108 stories, 442
m)
Concrete 110 Carnegie Hall
Tower (New York,
USA, 62 stories,
230.7 m)
Tube in Tube
Ext. Framed
Tube (Steel or
Concrete) +
Int. Core Tube
(Steel or
Concrete)
80 Effectively resists lateral
loads by producing interior
shear core - exterior
framed tube interacting
system.
Interior planning
limitations due to shear
core.
181 West Madison
Street (Chicago,
USA, 50 stories,
207 m)
30. REFERENCES
Mir M.Ali and Kyoung Sun Moon “Structural
Developments in Tall Buildings: Current Trends and
Future Prospects”
en.wikipedia.org
Kyoung Sun Moon “Material-Saving Design Strategies
for Tall Building Structures”
Text book- Engineering Architecture the vision of Fazlur R. Khan by
Yasmin Sabina Khan
sefindia.org