Post on 21-Apr-2017
CABLE SUSPENSION BRIDGE
CABLE SUSPENSION BRIDGE
BY- GAURAV RAWAT
CABLE SUSPENSION BRIDGE
CONTENTS
01- INTRODUCTION
02- TYPES OF SUSPENSION BRIDGE
03- COMPONENTS OF SUSPENSION BRIDGE
04- USE OF ANCHORAGE
05- EVOLUTION OF SUSPENSION BRIDGE
06- STRUCTURAL ANALYSIS LOADS
07- CONSTRUCTION SEQUENCE
08- SOFTWARE CAN BE USED TO DESIGN
09- STRUCTURAL FAILURE
10- SUSPENSION BRIDGE THROUGH OUT THE WORLD
11- ADVANTAGES AND DISADVANTAGES
CABLE SUSPENSION BRIDGEINTRODUCTIONA suspension bridge consist of two cables, which are stretched over the span to be bridged. Each cable passing over two towers anchored by backstays to a firm foundation.As the cable is flexible throughout, therefore it cannot resist any moment and can adopt any shape under the load, that is why the bending moment at every point of the cable is taken zero.The central sag or dip of the cable generally varies from 1/10 to 1/15 of the span. It may be noted that, since the cable is in tension throughout, this type of construction is most economical.
DIP
CABLE SUSPENSION BRIDGE
SUSPENDERS
ANCHORAGE
DIP/SAG
MAIN SPANDECK PINNED SUPPORT
PYLON
PAVEMENTFIXED
SUPPORT
SUSPENSION CABLE
COMPONENTS
CABLE SUSPENSION BRIDGE
TYPICAL SUSPENSION BRIDGEThe deck (trafficway) of a suspension bridge is hung by suspender cables which hang from master cables (resisting on the tower). The cables transfer the weight to the towers, which transfer the weight to the good
TYPES OF SUSPENSION BRIDGE
CABLE SUSPENSION BRIDGECABLE STAYED BRIDGES:
Cable-stayed bridges have towers, but cables from the tower go directly to the road deck, instead of spanning from tower to tower.
COMPONENTS OF SUSPENSION BRIDGE
CABLE SUSPENSION BRIDGE
A suspension bridge is a type of bridge in which the deck (the load-bearing portion) is hung below suspension cables on vertical suspenders.
COMPONENTS Cables-suspend the roadway(deck) via hangers Towers- stabilize wire cables (offer little support) Anchorages
CABLE SUSPENSION BRIDGE
WITHOUT ANCHORAGE
WITH ANCHORAGE
ANCHORAGEAnchorages are the structures to which the ends of the bridge's cables are secured. They are massive concrete blocks securely
Attached to strong rock formations.
During construction of the
anchorages, strong eye bars (steel
Bars with a circular hole at one
end) are embedded in the concrete.—each wire bundle will be secured to one of the anchorage's eye bars.
CABLE SUSPENSION BRIDGEEVOLUTION OF SUSPENSION BRIDGES
The first design for a bridge resembling the modern suspension bridge is attributed to venetion engineer Fausto Veranzio whose 1595 book Machinae Novae included drawings both for a timber and rope suspension bridge cable-stayed bridge using iron chains.
However, the first suspension bridge actually build was by James Finely(American engineer) at Jacob’s creek, in 1801. Finely bridge was the first to incorporate all of the necessary components of a suspension bridge.
CABLE SUSPENSION BRIDGE
CABLE STAYED BRIDGESCable-stayed bridges have towers, but cables from the tower go directly to the road deck, instead of spanning from tower to tower.
STRUCTURAL ANALYSIS
LOADS
DEAD LOADDead load refers to the weight
of the bridge itself. Like any other structure, a bridge has a
tendency to collapse simply because of the gravitational
force acting on the materials of which the bridge is made.
LIVE LOADLive loads refers to traffic that
moves across the bridge as well as normal environment factors such as changes in
temperature, precipitation and winds.
DYNAMIC LOADDynamic load refers to
environment factors that go beyond normal weather
conditions, factor such as sudden gusts of wind and earthquake. All three factors must be taken into
consideration when into consideration when building a
bridge.
CABLE SUSPENSION BRIDGEBEHAVIOUR:THE MAIN FORCES IN A SUSPENSION BRIDGE OF ANY TYPE ARE TENSION IN THE CABLES AND COMPRESSIONS IN THE PILLARS.
CABLE SUSPENSION BRIDGECONSTRUCTION SEQUENCE
TOWERSTower foundation are prepared by dagging down to a sufficient firm rock formation.Some bridges are designed so that their towers are built on dry land, which makes construction easier.
If a tower will stand in water, its construction begins with lowering a caisson (a steel and concrete cylinder that acts as a circular damn) to the ground beneath the water; removing the water from the caisson's interior allows workers to excavate a foundation without actually working in water.
CONSTRUCTION SEQUENCE`
2. SADDLES
Large devices called saddles, which will carry the main suspension cables, are positioned atop the towers. Typically of cast steel, they can also be manufactured using riveted forms, and are equipped with rollers to allow the main cables to shift under construction and normal loads.
3.ANCHORAGE
Anchorages are the structures to which the ends of the bridge's cables are secured. They are massive concrete blocks securely attached to strong rock formations. During construction of the anchorages, strong eye bars (steel bars with a circular hole at one end) are embedded in the concrete.—each wire bundle will be secured to one of the anchorage's eye bars.
• CABLE SUSPENSION BRIDGE
CABLE SUSPENSION BRIDGECONSTRUCTION SEQUENCE`
4.CATWALKS
Temporary suspended walkways, called catwalks, are then erected using a set of guide wires hoisted into place via winches positioned atop the towers. These catwalks follow the curve set by bridge designers for the main cables. Typical catwalks are usually between eight and ten feet wide, and are constructed using wire grate and wood slats.
CABLE SUSPENSION BRIDGECONSTRUCTION SEQUENCE`
5.CABLE SPINNING
High strength wire (typically 4 or 6 gauge galvanized steel wire), is pulled in a loop by pulleys on the traveler, with one end affixed at an anchorage. When the traveler reaches the opposite anchorage the loop is placed over an open anchor eye bar. Along the catwalk, workers also pull the cable wires to their desired tension. This continues until a bundle, called a "cable strand" is completed, and temporarily bundled using stainless steel wire.Then it is brought to shape with compactor
SPINNING
BUNDLE COMPACTION
CABLE SUSPENSION BRIDGECONSTRUCTION SEQUENCE`
6.HANGERS / VERTICAL CABLES
At specific points along the main cable devices called "cable bands“(clamps) are installed to carry steel wire ropes called Suspender cables. Each suspender cable is engineered and cut to precise lengths, and are looped over the cable bands. In some bridges, where the towers are close to or on the shore, the suspender cables may be applied only to the central span.
CABLE SUSPENSION BRIDGECONSTRUCTION SEQUENCE`
7.DECK
After vertical cables are attached to the main support cable, the deck structure can be started. The structure must be built in both directions from the support towers at the correct rate in order to keep the forces on the towers balanced at all times. In one technique, a moving crane that rolls atop the main suspension cable lifts deck sections into place, where workers attach them to previously placed sections and to the vertical cables that hang from the main suspension cables, extending the completed length. Alternatively, the crane may rest directly on the deck and move forward as each section is placed.
Upon completion of the deck the added load will pull the main cables into an arc mathematically described as a parabola, while the arc of the deck will be as the designer intended
CABLE SUSPENSION BRIDGE
Structural engineering is usually considered a specialty within civil engineering, but it can also be studied in its own right. Structural engineers are responsible for engineering design and analysis. Entry-level structural engineers may design the individual structural elements of a structure, or example- the beams, columns, and floor of a building.
SOFTWARE USEDSTAAD.Pro is the leading Structural Analysis and Design software rom Bentley. STAAD.Pro is the professional’s choice for steel, concrete, timber, aluminium and cold formed steel design virtually any structure including culverts, petrochemical plants, tunnes bridges, piles and much more.
SUSPENSION BRIDGES…THROUGHOUT THE WORLD
SUSPENSION BRIDGE
AKASHI KAIKYŌ BRIDGE - JAPAN1991 M – SPAN
XIHOUMEN BRIDGE - CHINA1650 M – SPAN
GOLDEN GATE BRIDGE – US1280 M – SPAN
SIDU RIVER BRIDGE – CHINA (1222 M SPAN)
BRIDGE TO RUSSKY ISLANDRUSSIA - 1104 M SPAN
SUTONG BRIDGE - CHINA1088 M SPAN
CABLE SUSPENSION BRIDGE
Nivedita Setu
SUSPENSION BRIDGE THROUGH OUT THE INDIA
Bandra–Worli Sea Link LAKSHMAN JHOOLA
india-arunachal-pradesh-tenga-western kallada river bridge vidyasagar setu bridge
CABLE SUSPENSION BRIDGEStructural Failure
Some bridges have in the past suffered from structural failure. This may be combination of poor design and severe weather conditions.
When it was opened in 1940, the Tacoma Narrows Bridge was the third longest suspension bridge in the world. It later become known as "Galloping Gertie," due to the fact that it moved not only from side to side but up and down in the wind. Attempts were made to stabilize the structure with cables and hydraulic buffers, but they were unsuccessful.
Eventually on November 7, 1940, only four months after it was built the bridge collapsed in a wind of 42 mph. The bridge was designed to withstand winds of up to 120 mph. Some experts have blamed the collapse of the bridge upon a phenomenon called resonance. When a body vibrates at its natural frequency it can shatter. Resonance is the same force that can shatter a glass when exposed to sound vibrations from an opera singers voice.
CABLE SUSPENSION BRIDGE
ADVANTAGE Longer main spans are achievable than with any other type of bridge. Less material may be required than other bridge types, even at spans they can achieve,
leading to a reduced construction cost. May be better to withstand earthquake movements than heavier and more rigid bridges. Bridges decks can have deck sections replaced in order to widen traffic lanes for larger
vehicles or add additions width for separated cycling/pedestrian path.
CABLE SUSPENSION BRIDGEDISADVANTAGES
Considering stiffness or aerodynamic profiling may be required to prevent the bridge deck vibrating under high winds.
The relatively low decks stiffness compared to other(non-suspension) types of bridges make it more difficult to carry heavy rail traffic where high concentrated live load occur.
Some access below may be required during construction, to lift the initial cables or to lift deck units. This access can often be avoided in cable stayed bridge construction.
CABLE SUSPENSION BRIDGE
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CABLE SUSPENSION BRIDGE