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BRIDGES

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Title: BRIDGES


1
BRIDGES
2
Bridge Basics
  • Bridge is a structure built to span a valley,
    road, river, body of water, or any other physical
    obstacle.
  • Designed to carry their own weight, (dead load)
    and to carry people and traffic, (live load) and
    to resist natural forces, such as wind and
    earthquakes.
  • Must consider effects of contraction and/or
    Expansion due to temperature changes
  • Designs of bridges will vary depending on the
    function of the bridge and the nature of the area
    where the bridge is to be constructed.

3
Bridge Basics
  • Bridges have been used since the dawn of
    humankind
  • Bridges are based on one or more of three basic
    structures that are derived from forms found in
    nature.
  • Beam a log fallen across a stream
  • Arch natural rock formations
  • Suspension from a hanging vine
  • Though traditionally constructed from wood,
    stone, concrete, or steel, new bridges made from
    high-performance composite materials such has
    reinforced plastic are emerging

4
Bridge Terminology
  • Abutment- A substructure element supporting each
    end of a single span or the extreme ends of a
    multi-span superstructure and, in general,
    retaining or supporting the approach embankment.
  • Deck- The roadway portion of a bridge that
    directly supports vehicular and pedestrian
    traffic.
  • Span- The distance between the main supports of
    a bridge.
  • The length normally measured when describing the
    size of the bridge
  • Simple Span- a plank across a stream
  • Continuous Span- supported along its length by
    piers and abutments
  • Cofferdam- A watertight structure allowing
    underwater foundations to be built in the dry.

5
Bridge Terminology
6
Bridge Forces
  • Four types of forces act on a bridge, either
    separately or in combination.
  • Tension
  • Compression
  • Torsion
  • Shear
  • http//www.pbs.org/wgbh/buildingbig/lab/forces.htm
    l

7
Bridges
  • Beam Bridge (Girder)
  • The simplest form of a bridge
  • A rigid horizontal structure that is resting on
    two piers, one at each end.
  • The weight of the bridge and any traffic on it is
    directly supported by the piers. The weight is
    traveling directly downward.
  • Mostly built from steel and concrete beams, or
    girders.
  • The size of the beam, and in particular the
    height of the beam, controls the distance that
    the beam can span.

8
Truss Bridges
  • Truss bridges are a type of beam bridge made up
    of many small beams attached together in
    triangular configuration to support a large
    amount of weight and span great distances.
  • They function by compression and tension forces
    and not by bending forces.
  • They are identified according to the way the
    chords are arranged.

9
How Truss Bridges Work
  • A truss is an interconnected framework of beams
    designed to hold something up.
  • Trusses dont bend, they get pulled apart and
    pushed together.
  • However once the weight is increased the bridge
    will stag in the middle. This is due to the
    individual beams expanding and contracting due to
    the weight.
  • Trusses must be stable, and not able freely in
    any direction in order for them to work.
  • The beams have to be placed carefully in the
    right angles and in equal distances away from
    each other so they can distribute the weight
    equally.
  • They are usually supported at the ends by
    abutments and sometimes in the middle by piers.

10
Arch Bridges
  • Arch bridges are one of the oldest types of
    bridges and have great natural strength.
  • The load on the roadway of this bridge is carried
    by the arch. The arch is supported at each end by
    a support called an abutment
  • The arch is held together by the main piece in
    the middle which is called the keystone
  • The roadway can be placed above or below the arch.

11
Arch Bridges
Arch Bridges consist of compression and tension.
  • Tension
  • The greater the degree of curvature (the larger
    the semicircle of the arch), the greater the
    effects of tension on the underside.
  • The natural curve of the arch and its ability to
    dissipate the force outward greatly reduces the
    effects of tension on the underside of the arch.
  • Compression
  • Arch bridges are continuously under compression.
    The force of compression is pushed along the
    curve of the arch toward abutments.

12
Suspension Bridges
  • Suspension Bridge
  • Tall towers on both sides of the roadway support
    the main cables.
  • The cables run the entire length of the
    suspension bridge and are anchored in the
    concrete abutments at each end.
  • Smaller cables are suspended from the main cables
    and these cables support the roadway.
  • Almost all suspension bridges have, in addition
    to the cables, a supporting truss system beneath
    the bridge deck (This helps to stiffen the deck
    and reduce the tendency of the roadway to sway
    and ripple.

13
Suspension Bridges
  • Light, and strong, suspension bridges can span
    distances from 2,000 to 7,000 feet far longer
    than any other kind of bridge.
  • They are ideal for covering busy waterways.
  • This type of bridge is the only practical type
    suitable for very long spans or when it would be
    hazardous to maritime traffic to add central
    supports.

14
Cable-Stayed Bridges
  • Similar to the suspension bridge but the
    difference lies in how the cables are connected
    to the towers
  • This bridge supports the roadway by cables that
    run from towers to the actual roadway
  • Cable-stayed require less cable, can be
    constructed out of identical pre-cast concrete
    sections, and are faster to build.
  • Cost-effective bridge that is undeniably
    beautiful.

15
Cable-Stayed Bridges
  • A cable stayed bridge is a bridge with one or
    more pillars.
  • The two types of cable-stayed bridges are
    parallel attachment design and radial attachment
    design.
  • In a parallel attachment design the cables are
    attached at different heights along the tower and
    are parallel to one another
  • in a radial attachment design the cables are
    attached at a single point at the top of the
    tower and on several places on the road.

Parallel Attachment Design
Radial Attachment Design
16
Cantilever Bridges
  • A structure or beam that is unsupported at one
    end but supported at the other, like diving
    boards
  • A cantilever does not reach all the way across
    the bridge so they are connected in the middle by
    a part called the suspension span
  • The suspended span may be built off-site and
    lifted into place, or constructed in place using
    special traveling supports.

17
Cantilever BridgeForth Railway Bridge
  • The Forth Railway Bridge (or Firth of Forth
    Bridge) is made of a pair of cantilever arms that
    extend out from two main towers.
  • The beams are supported by diagonal steel tubes
    projecting from the top and bottom of the towers.
  • These spans support a central suspended span.
    Some structural members of the bridge are as
    large as 12 feet in diameter.

18
Cantilever Bridges
19
Movable Bridges
  • This bridge is usually used to span canals and
    rivers that carry heavy boat traffic
  • Usually powered by electric motors
  • In the past they were powered by steam engines
  • original movable bridges were the drawbridges of
    medieval times, raised by ropes and pulleys
  • There are three main types
  • 1.Bascule
  • 2.Vertical lift
  • 3. Swing

20
Bascule Bridge or Drawbridge
  • Used for short distances
  • Have two movable spans the rise upward, opening
    in the middle
  • When open the weight is supported by the
    stationary section of the bridge

21
Vertical-lift Bridge
  • Used for longer distances
  • Straight bridge, held between two towers
  • Lifted by steel ropes, attached to counterweights
  • -as the counterweights go down the bridge goes
    up and vise-versa.
  • Operate in an elevator like fashion

22
Swing Bridges
  • Mounted on a central pier
  • The central pier allows the bridge to rotate to
    the side
  • Uncommonly used because the central pier is
    located in the area where boats like to travel

23
Moveable Bridges
Bascule Bridge
Swing Bridge
Lift Bridge
24
Understanding Bridges
  • Video
  • http//videos.howstuffworks.com/hsw/20829-understa
    nding-bridges-video.htm
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