2. 2
A view of Mahatma Gandhi Setu
Official name Mahatma Gandhi Setu
Locale Patna, Bihar, India
Maintained by Bihar government
Designer Gammon India
Design Girder bridge
Material Concrete & steel
Total length 5575meter
Width 25 meter
Number of spans 47
Piers in water 40
Clearance below 265
Construction begin 1972
Construction end 1982
Opened May 1982
Toll yes
Closed No
3. 3
Mahatma Gandhi Setu (also called Gandhi Setu or Ganga
Setu) is a bridge over the river Ganges connecting Patna
in the south to Hajipur in the north of Bihar. Its length is
5,575 meters (18,291 ft.) and it is the longest river bridge
in India. It was inaugurated in May 1982 by the Prime
Minister, Mrs. Indira Gandhi.
Gandhi Setu is an engineering marvel in its own.
Constructing a bridge over the Ganga near Patna where
width of the river is enormous was always going to be a
challenging one. It took a decade to finish the
construction work. The work was started in 1972, though
this was sanctioned in 1969 only.
4. 4
Planning and Significance
The bridge was approved by the Central Government in
1969 and built by Gammon India Limited over a period of
ten years, from 1972 to 1982. It was built in connect
North Bihar with the rest of Bihar. Before this bridge was
constructed, Rajendra Setu, opened in 1959, was the only
link to North Bihar. Since then, the Vikramshila Setu has
also been built across the Ganges. Two more rail-cum-
road bridges are currently under construction, between
Digha and Sonepur and at Munger.
The Indian postal department issued a commemorative
postage stamp on Landmark Bridges Of India: Mahatma
Gandhi Setu of denomination 0500 Paise on 17 August
2007.
5. 5
Gandhi Setu: An engineering marvel
Asia’s longest river bridge, Mahatma Gandhi Setu, popularly
known as the Gandhi or Ganga Setu, is a marvel of both
engineering de sign and technology. Inaugurated by the then
Prime Minister Indira Gandhi in 1982, the 5.75km-long bridge
became the lifeline of north Bihar.
Touted as a true engineering marvel, a miracle of equilibrium
and graceful in appearance, it was constructed by Gammon India
with an expenditure of Rs 87.22 crore. The river bridge has 45
intermediate spans of 121.065 metres each and one span of
65.530 metres on both sides. The technology used in the bridge
was prestressing — cantilever slabs with hinge bearings and box
girder.
It took over a decade to construct this wonderful feat of
engineering genius. Though the project was sanctioned in 1969
by the Central government, construction work could begin in
1972
6. 6
Cont….
In fact, before the inauguration of the Setu, north Bihar-
bound people from Patna had to negotiate the Ganga
either using a boat, a ship or a steamer. The only other
option was taking a long and tiring rail route. So the basic
purpose of the Setu was to cut short the travelling time
from the state capital to north Bihar.
The view of river Ganga flowing down majestically
below is simply breathtaking. Hundreds of pedestrians
and over 40,000 vehicles ply every day across the longest
cantilever bridge of Asia. Since its inauguration in 1982,
the Gandhi Setu has been the passage of myriad activities.
While brisk business is carried on at the one end of the
bridge in the capital town itself, the same is happening in
the various districts and towns of north Bihar. Both the
markets together provide livelihood for over 1, 00,000
people. Besides, thousands of people visit these markets
from far off places every day. All acknowledge the role of
this towering bridge in their business and daily life,
creating a bond between two generations.
7. 7
Cont…
However, the Setu is now stressed beyond limit under the
weight of heavy vehicles constantly plying over it from
Patna and North Bihar and threatening its existence.
Two pillars of the bridge developed cracks four years ago,
only 26 years after it was inaugurated. It wasn't supposed
to, considering that it was flaunted as an engineering
marvel that would serve people for at least a century.
Poor maintenance, coupled with wear and tear caused by
the unprecedented surge in traffic, has made the structure
vulnerable. If a larger crack develops, it will sever the
lifeline between the state capital and north Bihar.
"For us the Setu is our lifeline. If there is further damage,
the entire communication network with north Bihar will
be paralysed," said principal secretary, road construction
department, Pratyay Amrit.
8. 8
Engineering Details
The bridge consists 45 intermediate spans of
121.065 meters (397.19 ft.) each and a span of
65.530 meters (214.99 ft.) at each end. The deck
provides for 7.5 meters (25 ft.) wide two lane
roadways for IRC class 70 R loading with footpaths
on either side. The cantilever segmental construction
method was adopted to construct this mega bridge.
Longest bridge in India
9. 9
The Mahatma Gandhi Setu Bridge over the river Ganga
in Patna is the world's longest river bridge. The bridge
spans over 5.575 km from Hajipur at the north end to
Patna at the south end. Patna is located on the south bank
of the river Ganga. Patna has a very long riverline, and it
is surrounded on three sides by rivers Ganga, Sone, and
Punpun. Just to the north of Patna across the river Ganga
flows the river Gandak.
Patna is a historic city and an important pilgrimage center
for Sikhs, Buddhists, and Jains. Patna houses one of the
five Sikh Takhats -Takhat Patna Sahib. The Buddhist and
Jain pilgrim centres of Vaishali, Rajgir or Rajgriha,
Nalanda, Bodhgaya and Pawapuri are all nearby. It is the
ideal gateway for all the places on this circuit.
Efforts on to repair Gandhi Setu's
superstructure
10. 10
It's a very challenging task for us as due to the structure of
the bridge, nobody could know how to change the
superstructure. So, for the first time in the country and
probably in the world as well, the superstructure is being
repaired," said Amrit.
Interestingly, neither any of the pillar of the bridge is
damaged nor its foundation is weakened, but the problem
is with the distressed hinges and finger-type expansion
joints - a failing of pre-stressed technology. Stands 44 to
46 are being repaired and the work is going on
continuously for some days now, he added.
Since trucks' entry has been completely banned, state's
traders are facing heavy loss. For, they are forced to bring
their goods to Muzaffarpur, Darbhangha, Motihari and all
other regions on this part of the Ganga by
smaller trucks after paying heavier freight as the rate for
smaller vehicles is higher. When asked if there is any
alternative arrangement for the heavy vehicles, Amrit said
a firm "no". "We expect when the Mokama bridge will be
functional, the traders will be relieved," he said, adding
11. 11
the department has also been requesting the Railways to
expedite the repair works of the Rajendra Pul so that it
could be made open for heavy vehicles.
The 40-pier bridge was inaugurated in May 1982 by the
then prime minister Indira Gandhi. At that time, its life
span was stated to be over 80 years. But heavy traffic
volume estimated at over 30,000 vehicles a day and lack
of timely maintenance have resulted in tearing apart of its
hinges well ahead of time.
Rehablitation of Mahatma Gandhi Setu
in Patna
1. Introduction
12. 12
The Mahatma Gandhi Bridge was constructed about 25 years ago over
the Ganges River in order to connect patna to the other side of river.
Once completed it was supposed to be the part of N.H 19 and comes
directly under Central Government of India. It is one of the longest
bridge in india.
The bridge has 46 spans each with length 120m. Each span has two
cantilever beams on both sides which are free to move at the ends. It has
two lanes one upstream and the other downstream each with a width of
around 6m. Both the lanes are also free from each other and are not
connected anywhere. It was constructed by using 3 meter pre-casted
parts being joined at both ends to complete the span. The Spans are
connected by using a Protrusion which is free to move longitudinally
also along the river flow. In upwards and downwards direction it is such
that it allows vibration to transfer smoothly to the next span while
vehicular movement without much discreteness. It is shown in fig.
Due to heavy traffic movement and being the only bridge to cross
ganges river the bridge is used heavily now. Hence it has started
vibrating with a higher amplitude than it was designed to. Also in many
spans the cantilever beams were found to have sagged at ends.
2. Rehabilitation
Keeping the structural health prospective in mind it was decided for
immediate rehabilitation of the bridge to provide extra strength to the
spans so that it bear the existing vehicular load according to the IRC.
13. 13
2.1. For Rehabilitation the following steps were
proposed:-
External Pre-stressing of the bridge using 9 steel cables in a bunch. It
was decided to pre-stress from 6 places starting from the end towards the
center portion as shown in fig. It has to be done on both ends along the
width rather than in centre making it at 12 places in each cantilever. In
each cable a load of 16 tons, or 450Kg/cm3 jack pressure, individually
has to be given. All these cables are to be enclosed within pipes and then
filled with cement mortar to make it permenant. The anchor are to be
made permanent by enclosing it with a cement cube. These cables will
further lift the cantilever beams and support the structure.
Fig.1
Fig 1. The cables positioning along the span of bridge.
Grouting of cracks wherever they are visible. It has
to be done by putting nozz
Stitching of spans by using steels jackets in some
spans whose condition is not good.
14. 14
2.2. The Rehabilitation Process
The external pre-stressing is done using steel cables
anchored at both ends of the span. 9 of these cables are
bunched together at one place and anchored using steel
structures bolted to the bridge by means of permenant
anchors as shown in Picture Set 1.
Picture set 1. The steel structures and anchors at the site.
These are situated at 6 places through the cantilever beam so that the
bridge can be lifted at all places uniformly. Each of these cables is then
stressed from both the ends by using clamping jack and hydraulic pump
system shown in Picture set 2.
15. 15
Picture set 2. The cable holding jack and the hydraulic pump system
powered by electricity.
This stressing is done to on both sides of the cable and simultaneously to
cables at both ends of the width. Hence at a time 2 cables are stressed.
This is done to make the load distribution symmetric on the span which
is important to avoid any kind of load developed locally in the span. All
stressing is done in a very systematic manner.
Each of these cables is given a load of 450Kg/cm3 in steps of
50Kg/cm3.
After stressing all the cables in all the six places over the cantilever the
whole system of buched cables is packed with cement mortar and made
permanent. After stressing the span looks like in Picture Set 3.
16. 16
Picture set 3. The span after final external Pre-Stressing by cable
bunches.
3. Instrumentation
For Measuring the effectiveness of external Prestressing following
testing was also carried out in the bridge spans.
3.1. Strain measurements:-
Strain Gauges were installed at 24 places as follows. As each cantilever
span is pre-stressed the strain in the span is relived and to correctly
measure all the strain change in the top, bottom, and the two side slabs
strain gauges were installed at these parts. There were total six cross-
sections were identified, 3 in each arm of the span. At each cross-section
one was installed at the bottom of the top slab, one at the top of soffit
slab and the other two on the two walls on either side. The gauge
placement plan is shown in Fig 2.
17. 17
Figure 2. The Strain Gauge placement plan.
The gauges were named according to there positions. Each cross-section
was named from A to F starting from patna side. At each cross-section
the one at the top is suffixed by a T, the one at the bottom by B, the one
in the upstream direction side wall by U and the one in the downstream
direction side-wall by D. Hence AT will be the gauge at top and in A
cross-section, BB will be gauge at bottom in B cross-section and
likewise.
18. 18
3.1.1. Different elements used for Strain measurement
The strain gauges used are PL-90-11 TML make
Picture 4. The PL-90-11 TML made Strain-Gauge.
The adhesive which is used for sticking it to the concrete surface is CN-
E type adhesive of TML make.
The wires used for strain measurement are three wire cored type.
The switcher unit is a HBM Germany make which can be used for
10 half-bridge strain gauges and 4 full bridge gauges. Hence for 24
strain gauge measurements we need 3 of these switcher units as we
are using it in a half-bridge configuration.(Picture 5)
19. 19
Picture 5. The HBM Germany made Selector Unit used for selecting the
strain gauge
The read-out instrument is P3 Strain Indicator and recorder, of Vishay
Micro-Measurements make, which has 4 channel inputs. So we can
connect four of switcher units to it. It can be set for any bridge
configuration. It gives readings directly in micro-strains.
(Picture 6)
20. 20
Picture 6. The Vishay P3 strain indicator used to indicate the strain
gauge readings
A dummy gauge has to be made using a concrete block, made of
the same concrete as of the testing surface, and a strain gauge
installed over it. This is required for completing the Wheatstone
bridge circuit and also to compensate the effect of self-heating of
the strain gauge on readings.(Picture 7)
Picture 7. The Dummy Gauge prepared on a different concrete block
whose strain is independent of concrete.
General accessories like acetone, soldering unit, wires, fewikwik,
tape, clamps, screw drivers etc. are required while installing the
strain gauges
21. 21
3.1.2. Procedure for Strain-Gauge installation:-
1. The surface is first marked properly as to where exactly the strain
gauge is to be placed.
2. This surface is then grinded well to remove all the loose concrete
and dust so that the gauge can be fixed on a hard concrete surface.
3. It is then cleaned thoroughly and then the marking is done again
which got erased due to grinding using the end lines.
4. In order to make the surface very smooth and fill small unevenness
it is applied with Araldite and levelled.
5. After the araldite surface is hardened it is rubbed with sand paper
to make it further plain. It is then again cleaned with acetone to
remove the sand paper remnants.
6. The Strain-Gauge Adhesive i.e. CN-E is applied over the gauge and it
is then glued slowly and carefully so that no kinks are formed it is then
applied pressure slowly by keeping a paper, supplied with the gauge,
until it is smoothly bonded to the surface.
22. 22
7. The connections are made using the dummy gauge and the core
wire. Dummy gauge block is clamped to the surface near to the
strain-gauge. Dummy gauge is required to complete the Half-
Wheatstone Bridge and compensate for the deviation caused by
self-heating of the gauge. It can be seen in Picture Set 8
Picture Set 8. The dummy gauge connections and final placement.
8. The other end of the wire is then soldered to the connecting port of the
switching unit. Switching unit is basically used to switch between
different gauges. In one switching unit 4 full bridges can be connected
and switched between and up to 10 half bridges can be connected and
switched between. By using this switching unit only one read out
23. 23
instrument is required to get the readings. Otherwise it will be too
demanding and tedious.
9. The readout instrument has 4 channel inputs and hence 4 switching
units can be connected directly. In this case we have only 3 inputs so we
will use 3 channel input. It gives readings directly in micro-strains.
Picture 9. The whole setup including 3 Switcher Units and strain
indicator used for strain measurements.
10. When all the instruments are in place readings can be taken. The
readings are taken before and after external stressing of cables. It should
indicate that what relive of strains we are achieving.
24. 24
3.2. Deflection measurements:-
When the span is externally prestressed by cables it causes the tip of the
cantilever arms to move up with respect to the middle of the center of
span. The cables pull the arms upward due to the stressing done. To
confirm this it is necessary to note down the initial deflection and the
final deflection after prestressing by cables. This is done by putting
water tubes at both ends of the span. Three pipes are used two at the
ends along the width of arm and one at the middle. The initial and the
final readings are taken on a scale with a least count of 1mm on both
sides of all 3 pipes. The difference between one side reading and the
other side reading gives the deflection and comparing the deflections
before and after stressing we can get the effective change caused by Pre-
Stressing.
3.3. Temperature measurements
Temperature variations throughout the day are quite significant. As they
cause the stress to increase or relive and also the deflection in the
cantilever arms to vary. It is important to consider the effect of
temperature. For this purpose PT type sensors are installed at the surface
inside and outside the bridge. The ambient temperature thermometer is
also installed outside and inside the bridge span. A temperature cycle is
performed and all the readings i.e. the strains, the deflections and
temperature is noted down one day before the day stressing is planned to
be done. These readings become the basis for the correction required due
25. 25
to temperature variations. The readings of before stressing and after
stressing are compared according to the time and temperature at which
they are taken. This further refines the readings to find efficacy of Pre-
Stressing.
Gandhi Setu's span to be rebuilt
Commuting through Mahatma Gandhi Setu has become dangerous as its
span number 44 on the western flank is heavily damaged and literally
dropping. It is all set to be demolished and reconstructed.
Traffic had considerably eased on the Asia's longest road bridge after the
toll plaza had been closed. But traffic movement has been severely
impaired on the lifeline of north Bihar following the stone mastic asphalt
(SMA) laying work, also called stone-matrix asphalt, on the bridge.
"Tender for reconstructing span 44 has been passed and the demolition
work will start within a month," said road construction minister Nand
Kishore Yadav on Wednesday.
It may be mentioned that SN Bhobe and Associates had submitted a
report to the NHAI on this span and the need for its replacement.
"The setu is RCD's biggest concern. However, the ongoing SMA laying
work is very important as it will help reduce the weight of the PCC road.
This work can be undertaken only in parts. Hence, both the eastern and
western lanes are now undergoing SMA work. This has hampered the
26. 26
traffic movement. Span 44 will be demolished very soon and it will
further cause inconvenience to the commuters. Incidentally, the work
will continue till October-November. However, most of the traffic snarls
are due to overtaking of vehicles," said RCD secretary Pratyaya Amrit.
Cont……
As suggested by SN Hobe & Associates for repairing the bridge, the
SMA work has been undertaken as it provides deformation resistant,
durable surfacing material, suitable for roads having heavy traffic. The
stone skeleton is filled with bitumen mastic to which fibres are added to
provide adequate strength to bitumen and prevent drainage of binder
during transport, said an RCD engineer.
"To deal with traffic jam, the foremost need is to keep the traffic moving
as this will not only ease the pressure but also give the travellers a
psychological relief. Though they would be covering a larger distance, at
least they will reach their destination without facing traffic snarls. We
are always in touch with Vaishali district administration and cops to man
the movement on the setu for smooth flow of traffic. However, frequent
overtakes and breakdown of heavy vehicles often lead to huge traffic
jam," said Patna district magistrate N Saravana Kumar.
The bridge has been been in trouble recently due to faults in the
technology used, the lack of maintenance and ever increasing traffic
volume on the bridge. Two pillars of the bridge developed cracks, much
27. 27
to the surprise of all, as it was considered to serve flawlessly for a
century. One way or either at some place over the bridge is always under
maintenance, causing heavy traffic jam. It is estimated that roughly
40,000 vehicle use this bridge everyday. It is hoped that once Ganga
Rail-cum-Road Bridge, that is under construction, starts operating, the
load on the Gandhi Setu will ease. Nevertheless, the bridge is a
wonderful feat of engineering, and one should always try to enjoy the
ride over it, at least once.
Bridges across the Ganges in Bihar
The Ganges divides the state of Bihar in two parts. The mighty river
makes communication between the two parts a difficult task.
The first effort to bridge the gap was Rajendra Setu in 1959. The next
bridge across the Ganges in Bihar was the 5,575 meters (18,291 ft.)
Mahatma Gandhi Setu, the longest bridge in India at the time of its
commissioning in 1982. It was followed by Vikramshila Setu near
Bhagalpur. The fourth bridge across the Ganges in the state is the Ganga
Rail-Road Bridge.
is also under construction.]
A 5.575 km long bridge, under construction,
will connect Bakhtiyarpur and
A bridge has been planned across the Ganges to connect Arrah and
Chhapra. A road bridge parallel to the existing rail and road bridge,
Rajendra Setu, has also been planned.[
28. 28
Ganga Rail-Road Bridge
Ganga Rail-Road Bridge is an under-construction Bridge across river
Ganges, connecting Digha Ghat in Patna and Pahleja Ghat in Sonepur in
the Indian state of Bihar. Upon completion in March 2015, the bridge
would provide easy Roadway and Railway link between Northern and
Southern parts of Bihar.
The project
Presently, Rajendra Setu is the only bridge that carries railway tracks
across the Ganges in the state of Bihar. It was opened in 1959.
Initially sanctioned as a rail bridge, the Ganga Rail Bridge project was
converted to a rail-cum-road bridge in 2006. Total cost of the project
was put at 13,890 million, out of which 8,350 million was for the rail
part, and 5,540 million was for the road part. It was expected to be
completed in five years.
When completed, the 4,556 meters (14,948 ft.) bridge would be amongst
the longer bridges in India. The total length of construction, including
approaches, would be 20 km. It would be a K-truss bridge.
29. 29
According to a media report the bridge is expected to be completed by
2017. Railways is working hard to complete Ganga Rail-Road Bridge
project within the stipulated time of March 2015 to ease the huge traffic
flow on the Mahatma Gandhi Setu.
Entry of 10-wheelers banned on Gandhi
Setu
With Rajendra Pul across the Ganga connecting Mokama and Barauni
already closed for heavy vehicles for the last six months due to its
weakened structure, the blanket ban on entry of 10-wheel trucks on
Mahatma Gandhi Setu near Hajipur from Monday to save the bridge
from further damage is bound to hit the economy of north Bihar region
hard as it would create scarcity and increase the prices of all industrial
goods for which it entirely depends on outside supply.
Vaishali DM Vinod Singh Gunjiyal confirmed on Monday that the ban
had been made effective with immediate effect on the basis of a letter
from the chief engineer of Bihar Pul Nirman Nigam. He said he had
asked SP, Vaishali, to stop the entry of all trucks with 10 wheels and
above. The step has been taken to save the bridge from further damage.
Reacting sharply to this ban, president of North Bihar Chamber of
Commerce and Industry (NBCCI), Motilal Chhaparia said on Monday
that traders will be forced to bring their goods to Muzaffarpur,
Darbhangha, Motihari and all other regions on this part of the Ganga by
30. 30
smaller trucks after paying heavier freight as the rate of freight is higher
for smaller vehicles. He suggested the government should immediately
take the help of the Army to build a pontoon bridge by the side of the
existing bridge to divert the traffic and repair the damaged portion of the
bridge at the earliest.
Architecture
This bridge was built by Gammon India Limited. It
consists 46 spans of 121 meters (397 ft.) each and 2 spans
of 63 meters (207 ft.) at each end. The deck provides for a
7.5 meters (25 ft.) wide two lane roadways for IRC class
70 R loading with footpaths on either side.
The cantilever segmental construction method is adopted
to construct this mega bridge. 650 million or 65 crore (at
1972 prices of India) rupees of public tax money were
spent on constructing this bridge. The 5.575 km long
architecture of Mahatma Gandhi Setu consists 46 spans of
121.065 Meter each and 2 spans of 63.53 Meter at each
end. The deck provides for a 7.5M wide 2 lane roadway
31. 31
for IRC class 70 R loading with 2M wide footpaths on
either side
Mahatma Gandhi Setu bridge, Patna, Bihar:
facts, Photos
Before Mahatma Gandhi setu was built in Patna, people going to north
Bihar had to cross river Ganga by boat, a ship or a steamer. Other option
left with the people was to take a rail route which was very long. But
with inauguration of Gandhi Setu in Patna, this distance and pain of
traveling to north Bihar was greatly reduced. Its importance can be
judged from the fact that more than 40,000 vehicles pass this bridge
everyday.
But the sad part is that Mahatma Gandhi setu in Patna is not in good
condition now. Its many pillars have developed cracks due to bad
maintenance, huge amount of traffic on this bridge.