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Solid Ground? Measuring Soil Bearing Capacity

Difficulty
Time Required Short (2-5 days)
Prerequisites None
Material Availability Readily available
Cost Very Low (under $20)
Safety No issues

Abstract

Foundations for many types of structures rest on soil. This project shows how you can investigate the bearing capacity of different types of soil.

Objective

The goal of this project is to test the bearing capacity of different types of soil.

Credits

Jeffrey R. Hess, D. E. Harvey Builders, Inc. and Texas A&M University

Andrew Olson, Ph.D., Science Buddies

Cite This Page

MLA Style

Science Buddies Staff. "Solid Ground? Measuring Soil Bearing Capacity" Science Buddies. Science Buddies, 30 June 2014. Web. 23 July 2014 <http://www.sciencebuddies.org/science-fair-projects/project_ideas/CE_p009.shtml>

APA Style

Science Buddies Staff. (2014, June 30). Solid Ground? Measuring Soil Bearing Capacity. Retrieved July 23, 2014 from http://www.sciencebuddies.org/science-fair-projects/project_ideas/CE_p009.shtml

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Last edit date: 2014-06-30

Introduction

The bearing capacity of soil is an important consideration in construction projects. Dams, bridge abutments, and temporary support structures (falsework) during construction are all examples of structures that can be supported by underlying soil.

How do engineers know how much weight soil can support? Is the amount of weight different for different types of soil? How does the size of the area in contact with the soil affect bearing capacity? How does the presence of water in the soil affect bearing capacity? Do you think sand or topsoil will have a higher bearing capacity? Why? These are the kinds of questions you can begin to answer with this project.

Terms and Concepts

To do this project, you should do research that enables you to understand the following terms and concepts:

  • soil types,
  • silt,
  • clay,
  • sand,
  • loam.

More advanced students should also study:

  • pressure.

Questions

  • Which soil type do you think will support the most weight? Which soil type do you think will support the least weight? Why?
  • Advanced: how does pressure exerted on soil change with contact area of the support structure, given a constant load?

Bibliography

Materials and Equipment

To do this experiment you will need the following materials and equipment:

  • large plastic tub (container for soil),
  • 1-inch diameter dowel (length approx. equal to height of tub),
  • ruler,
  • marker,
  • small pieces of wood or hardboard for platform and jig,
  • drill with 1-inch spade bit or hole saw,
  • file,
  • 1/4-inch diameter dowel for legs of jig,
  • different types of soil (play sand, mason's sand, topsoil, subsoil),
  • shovel or garden trowel,
  • weight for platform (e.g., bucket with water).

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Experimental Procedure

  1. Do your background research and make sure that you are knowledgeable about the terms, concepts, and questions, above.
  2. You can make a simple experimental apparatus for measuring soil bearing capacity in a plastic tub. You'll need a piece of 1-inch diameter dowel, about as long as your tub is high. Mark off 1-cm increments along the length of the dowel, as shown in Figure 1.

    1-inch diameter dowel
    Figure 1. 1-inch diameter dowel, marked off in 1-cm increments (not to scale).


  3. Make a platform from a small piece of wood or hardboard and attach it firmly to the top of the dowel with a wood screw and glue (Figure 2). It's a good idea to drill a pilot hole for the wood screw, so the dowel doesn't split. Your platform should be large enough to support the weight you'll be using.

    Dowel with platform attached.
    Figure 2. Dowel with platform attached (not to scale).


  4. Make a jig to hold the dowel vertically over the soil surface (Figure 3). The dowel should be able to slide freely, so the hole needs to be slightly larger than the diameter of the dowel. You can drill it with a 1-inch spade bit, or a 1-inch hole saw, and then file out the hole to enlarge it enough for the dowel to slide freely. Make the legs from thinner dowels, and glue them to the bottom. You'll push these into the soil, so they need to be a bit longer than your tub is high (tall enough to hold the dowel upright).

    Jig for holding the dowel upright (platform with four legs a central hole to accommodate dowel).
    Figure 3. Jig for holding the dowel upright. The hole should be slightly larger than the dowel, allowing it to slide freely, but still supporting it. The legs should reach the bottom of the tub, and leave the platform high enough above the soil to keep the dowel from tipping over (not to scale).


  5. Fill the plastic tub with the sand or soil you want to test.
  6. Push the legs of the jig firmly down into the soil, and set the dowel so that it rests on the surface of the soil (see Figure 4).

    Dowel supported by the jig.
    Figure 4. The dowel supported in the jig. Push the legs of the jig firmly down into the soil, and set the dowel so that it rests on the surface of the soil (not to scale).


  7. Load the platform with weight (e.g., container + 500 ml water), and record how far the dowel penetrates into the soil. Keep track of the results in your lab notebook.
  8. Add an increment of weight and record how far the dowel penetrates into the soil. Repeat until the dowel does not penetrate further. Repeat the measurement at least three times, in different locations in the tub. Calculate the average penetration depth for each weight and soil type tested.
  9. For each soil type, make a graph of the penetration depth vs. weight.
  10. What happens to the soil underneath the dowel? If you add more weight to the dowel, does it descend by the same amount for each additional (equal) increment in weight?
  11. The Science Buddies project Get Down and Dirty: How Does Soil Change with Depth? describes how to classify different soil types based on physical properties (soil structure, consistence, and texture). See the Experimental Procedure section, in particular, steps 7, 9, and 10.
  12. More advanced students can compute the pressure applied to the soil by the weighted dowel. Pressure is the force per unit area. The SI unit for pressure is the pascal (Pa), which is newtons per square meter. Calculate the pressure on the dowel for each weight tested, and make a graph of soil penetration depth vs. pressure.

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Variations

  • What happens if you pack the soil down in the container prior to your test? To do this in a repeatable way, you could set a piece of wood (cut to fit your tub) on top of the soil, and load it with a fixed weight (e.g., a bucket full of bricks, or water). Lift the bucket and set it down on the board repeatedly to "tamp" the soil down. Do the same number of tampings, with the same weight, for each soil type. Measure the height of the soil in the tub before and after packing. Test both packed and unpacked soil samples for different soil types. Does packing make a difference for every sample tested?
  • What happens if you add a fixed amount of water to the test container?
  • What happens if you saturate the soil in the test container with water?
  • What happens if you increase the effective diameter of the dowel (attach a fender washer to the bottom of the dowel).
  • Try measuring the bearing capacity of soil samples collected from different depths.
  • If you are interested in learning more about different soil types, see this Science Buddies project in the Environmental Science area: Get Down and Dirty: How Does Soil Change with Depth?

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