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The simplest form of bridge the beam bridges

Beam Bridges - Design Technology Beam bridges A beam or "girder" bridge is the simplest kind of bridge. In the past they may have taken the form of a log across a stream but today they are more familiar to us large box steel girder bridges. There are lots of different types of beam bridges. A beam bridge needs to be stiff.

  • Cylindrical cage of reinforcing steel is lowered into the shaft and concrete is poured;
  • Some may be solid or hollow;
  • Seven cross-over lanes connect the two main sections and function as pull-over bays in emergencies;
  • Concrete also gets joints to prevent cracking every 5 m before it is poured or after;
  • Test each beam with increasingly heavier weights;
  • Concrete can be poured into stay-in-place forms if they are used.

It needs to resist twisting and bending under load. In its most basic form, a beam bridge consists of a horizontal beam that is supported at each end by piers. The weight of the beam pushes straight down on the piers. Under load, the beam's top surface is pushed down or compressed while the bottom edge is stretched or placed under tension. If we imagine that there is an imaginary line running down the centre of the beam this line remains at its original length while the material above is compressed and the material below is stretched.

This line is referred to as the neutral axis. The farther apart its supports, the weaker a beam bridge gets. As a result, beam bridges rarely span more than 250 feet. This doesn't mean beam bridges aren't used to cross great distances it only means that there may be a series of beam bridges joined together, creating what's known as a "continuous span.

Beam Bridges

Some may be solid or hollow. Below are three different shaped beams. The first beam is a box section, the second an I section beam and the third an L section beam. Solid beams are heavier than hollow beams. Beams like the one's below are given a special cross section for strength and rigidity. They may be as strong as the solid beams but are a lot lighter.

We may describe them as having a good strength to weight ratio. Reinforced Concrete Beams Concrete beams that are used in buildings as horizontal supporting pieces above doors and windows.

How Bridges Work

These are called lintels. These lintels are reinforced with steel rods cast in the concrete. The steel rods are normally placed below the neutral axis. The combination of more than one material makes the reinforced concrete a composite material. The steel enhances the strength of the concrete when stretched under tension.

Concrete is very strong in compression but weak in tension. We describe this as one of the properties of concrete.

Beam Bridge Facts, History and Design

Using card and glue make the three beams above. Test the beams individually for structural strength and resistance to loads stress in compression and tension. We can achieve this by placing the beams between either desks or chairs. If weights are hung or placed on top of the beams we should eventually be able to witness the shape of the beams altering.

Beam bridge

It will indicate the points of weakness. They may fold or bend depending upon how much weight is hung from them. Test each beam with increasingly heavier weights. Whilst hanging the weights from the beams record both the size of the weight and the structural damage if any it has upon the beam.

Suspension, Beam and Arch Bridges

Place these results into a spreadsheet or record your results in a chart with notes describing the changes. You may consider using a newton gauge or clock gauge to test the beams.

  • This doesn't mean beam bridges aren't used to cross great distances it only means that there may be a series of beam bridges joined together, creating what's known as a "continuous span;
  • The size of the beam, and in particular the height of the beam, controls the distance that the beam can span.

Once you have completed your experiment explain which beam held the heaviest weights for the longest length of time without folding or crumpling in any way. Explain why this type of beam appeared to be the structurally stronger than the other two? Suggest where this type of beam is used in architectural structures? Using additional card attempt to increase the strength of the beam?

Remember too much additional card will make the beam too heavy. It will end up with a low strength to weight ratio.