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Bridges

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Similar to making constant waves in a swimming pool or maintaining ... did to this bridge in Washington state back in 1940 (YouTube Tacome Narrows Bridge link) ... – PowerPoint PPT presentation

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Title: Bridges


1
Bridges
  • Discover Engineering
  • ENGR 096

2
Bridges
  • Three main types of bridges
  • Beam bridge
  • Arch bridge
  • Suspension bridge
  • Difference between the three is the distance
    crossed in single span
  • Span distance between two bridge supports
    (columns, towers, wall of canyon)

3
Bridges
  • Beam bridge spans up to 200 feet
  • Arch bridge 1000 feet
  • Suspension bridge 7000 feet
  • Difference comes from compression and tension

4
Bridge Forces
  • Compression (squeeze force)
  • Too much compression (buckling)
  • Tension (pull force)
  • Too much tension (snapping)

5
Bridge Forces
  • Dissipation (spread out over greater area)
  • Arch bridge
  • Transfer (move force from area of weakness to
    area of strength)
  • Suspension bridge

6
The Beam Bridge
  • Rigid horizontal structure resting on two piers
  • Weight of bridge and load supported by piers

7
The Beam Bridge
  • Usually concrete or steel beams
  • Taller beams can span longer distances (more
    material to dissipate tension)
  • Tall beams are supported with a truss (adds
    rigidity to existing beam)
  • Limited in size

8
Trusses
9
I-Beam
  • Top of beam experiences most compression
  • Bottom of beam experiences most tension
  • Middle of beam experiences very little
    compression or tension
  • Best design is beam with more material on top and
    bottom than the middle (I-beams)
  • Works for trusses too!

10
Arch Bridge
  • Semicircular with abutments on each end
  • Arch diverts weight from deck to abutments
  • Compression always under compression (no tension)

11
Arch Bridges
  • Does not need additional supports or cables
  • Arches made of stone dont even need mortar

12
Suspension Bridge
  • Cables, ropes, chains suspend the deck from
    towers
  • Towers support majority of the weight
  • Compression
  • Pushes down on suspension bridges deck
  • Cables transfer compression to towers
  • Tension
  • Cables running between two anchorages under
    tension

13
Suspension Bridge
14
Suspension Bridge
  • Have supporting truss system underneath

15
Suspension Bridge
16
Suspension Bridges
  • Two types
  • Suspension (curved cables)
  • Cable-stayed (straight cables, no anchorages
    required)

17
Cable-Stayed Bridge
18
Other Forces
  • Torsion (twisting force)
  • Eliminated in beam and arch bridges
  • Critical in suspension bridges
  • High winds
  • Minimized by deck-stiffening trusses

19
Resonance
  • A vibration in something caused by external force
    that is in harmony with natural vibration
  • Similar to making constant waves in a swimming
    pool or maintaining ones oscillation on a swing
  • Check out what resonance did to this bridge in
    Washington state back in 1940 (YouTube Tacome
    Narrows Bridge link)
  • Dampeners
  • Designed to interrupt resonant waves
  • Overlapping plates create friction to offset
    frequency of waves

20
Weather
  • Hardest to combat
  • Rain, ice, wind, and salt can bring a bridge down
  • Design progression iron replaced wood, steel
    replaced iron
  • Each new design addresses some past failure
  • Preventative maintenance

21
Lab
  • Build a bridge entirely out of uncooked spaghetti
    pasta and glue. Your bridge is to span a
    distance of 8 inches and withstand the most
    amount of weight as possible
  • Record the weight of your bridge.
  • Place your bridge on two piers spaced 8 inches
    apart and find the maximum load that your bridge
    can support
  • Record the final weight that your bridge was able
    to support. Find your load to weight ratio (Load
    divided by weight of bridge).
  • Turn in your ratio and a photo/video of your
    bridge in action to the Discussion Board by
    Thursday, November 13.
  • Remember to use knowledge learned from the
    lecture. Beam and suspension bridges work the
    best for this project. Hint use a truss system.

22
Example of how to load your bridge
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