Foundation (engineering)

Purpose

Foundations provide the structure's stability from the ground:

• To distribute the weight of the structure over a large area in order to avoid overloading the underlying soil (possibly causing unequal settlement).
• To anchor the structure against natural forces including earthquakes, floods, droughts, frost heaves, tornadoes and wind.
• To provide a level surface for construction.
• To anchor the structure deeply into the ground, increasing its stability and preventing overloading.
• To prevent lateral movements of the supported structure (in some cases).

Requirements of a good foundation

The design and the construction of a well-performing foundation must possess some basic requirements:

• The design and the construction of the foundation is done such that it can sustain as well as transmit the dead and the imposed loads to the soil. This transfer has to be carried out without resulting in any form of settlement that can cause stability issues for the structure.
• Differential settlements can be avoided by having a rigid base for the foundation. These issues are more pronounced in areas where the superimposed loads are not uniform in nature.
• Based on the soil and area it is recommended to have a deeper foundation so that it can guard any form of damage or distress. These are mainly caused due to the problem of shrinkage and swelling because of temperature changes.
• The location of the foundation chosen must be an area that is not affected or influenced by future works or factors.

Historic types

Earthfast or post in ground construction

Buildings and structures have a long history of being built with wood in contact with the ground. Post in ground construction may technically have no foundation. Timber pilings were used on soft or wet ground even below stone or masonry walls. In marine construction and bridge building a crisscross of timbers or steel beams in concrete is called grillage.

Padstones

Perhaps the simplest foundation is the padstone, a single stone which both spreads the weight on the ground and raises the timber off the ground. Staddle stones are a specific type of padstone.

Stone foundations

Dry stone and stones laid in mortar to build foundations are common in many parts of the world. Dry laid stone foundations may have been painted with mortar after construction. Sometimes the top, visible course of stone is hewn, quarried stones. Besides using mortar, stones can also be put in a gabion. One disadvantage is that if using regular steel rebar, the gabion will not last as long as when using mortar, due to rusting. Using weathering steel rebar can reduce this disadvantage somewhat.

Rubble-trench foundations

Main article: Rubble trench foundation

Rubble trench foundations are a shallow trench filled with rubble or stones. These foundations extend below the frost line and may have a drain pipe which helps groundwater drain away. They are suitable for soils with a capacity of more than 10 tonnes/m2 (2,000 pounds per square foot).

Gallery of shallow foundation types

File:Drawing of Poteaux-en-Terre in the Beauvais House in Ste Genevieve MO.png|Drawing of Poteaux-en-Terre post in ground type of wall construction (this example technically called pallisade construction) in the Beauvais House in Ste Genevieve, Missouri File:PSM V24 D321 A primitive lake dwelling in switzerland.jpg|PSM V24 D321 A primitive stilt house in Switzerland on wood pilings. File:Hórreo tipo asturiano, O Piornedo, Cervantes.jpg|A granary on staddle stones, a type of padstone File:Black Eagle Dam - cross-section of construction plans for 1892 structure.jpg|Black Eagle Dam – cross-section of construction plans for 1892 structure File:Davis House stone foundation ruin, Gardiner, NY.jpg|Davis House dry-laid stone foundation ruin, Gardiner, NY File:Random rubble masonry1.jpg|A basic type of rubble trench foundation File:Concrete cellar 10007.JPG|Typical residential poured concrete foundation, except for the lack of anchor bolts. The concrete walls are supported on continuous footings. There is also a concrete slab floor. Note the standing water in the perimeter French drain trenches. File:Modular home.jpg|Modular building to be placed on the foundation

Modern types

Shallow foundations

Main article: Shallow foundation

Often called footings, are usually embedded about a meter or so into soil. One common type is the spread footing which consists of strips or pads of concrete (or other materials) which extend below the frost line and transfer the weight from walls and columns to the soil or bedrock.

Another common type of shallow foundation is the slab-on-grade foundation where the weight of the structure is transferred to the soil through a concrete slab placed at the surface. Slab-on-grade foundations can be reinforced mat slabs, which range from 25 cm to several meters thick, depending on the size of the building, or post-tensioned slabs, which are typically at least 20 cm for houses, and thicker for heavier structures.

Another way to install ready-to-build foundations that is more environmentally friendly is to use screw piles. Screw pile installations have also extended to residential applications, with many homeowners choosing a screw pile foundation over other options. Some common applications for helical pile foundations include wooden decks, fences, garden houses, pergolas, and carports.

Deep foundations

Main article: Deep foundation

Used to transfer the load of a structure down through the upper weak layer of topsoil to the stronger layer of subsoil below. There are different types of deep footings including impact driven piles, drilled shafts, caissons, screw piles, geo-piers and earth-stabilized columns. The naming conventions for different types of footings vary between different engineers. Historically, piles were wood, later steel, reinforced concrete, and pre-tensioned concrete.

Monopile foundation

Main article: Monopile foundation

A type of deep foundation which uses a single, generally large-diameter, structural element embedded into the earth to support all the loads (weight, wind, etc.) of a large above-surface structure.

Many monopile foundations have been used in recent years for economically constructing fixed-bottom offshore wind farms in shallow-water subsea locations. Constructing a turbine foundation Horns Rev project, Elsam monopile foundation construction process, accessed 2010-04-12 For example, a single wind farm off the coast of England went online in 2008 with over 100 turbines, each mounted on a 4.74-meter-diameter monopile footing in ocean depths up to 16 meters of water.

Floating\barge

A floating foundation is one that sits on a body of water, rather than dry land. This type of foundation is used for some bridges and floating buildings.

Design

Foundations are designed to have an adequate load capacity depending on the type of subsoil/rock supporting the foundation by a geotechnical engineer, and the footing itself may be designed structurally by a structural engineer. The primary design concerns are settlement and bearing capacity. When considering settlement, total settlement and differential settlement is normally considered. Differential settlement is when one part of a foundation settles more than another part. This can cause problems to the structure which the foundation is supporting. Expansive clay soils can also cause problems.

References

References

1. (1996). "Soil mechanics in engineering practice". John Wiley & Sons.
2. "A Guide to Building Foundations".
3. "A Guide to Building Foundations".
4. "FEMA Homebuilder’s Guide to Earthquake-Resistant Design".
5. Ventura, Pierfranco. (2019). "Fondazioni". Hoepli.
6. Crabtree, Pam J. ''Medieval archaeology: an encyclopedia''. New York: Garland Pub., 2001. 113.
7. Edwards, Jay Dearborn, and Nicolas Verton. ''A Creole lexicon architecture, landscape, people''. Baton Rouge: Louisiana State University Press, 2004. 92.
8. Nicholson, Peter. ''Practical Masonry, Bricklaying and Plastering, Both Plain and Ornamental''. Thomas Kelly: London. 1838. 30–31.
9. Beohar, Rakesh Ranjan. ''Basic Civil Engineering''. 2005. 90. {{ISBN. 8170087937
10. Darvill, Timothy. ''The concise Oxford dictionary of archaeology''. 6th ed. [i.e. 2nd ed. Oxford, U.K.: Oxford University Press, 2008. Padstone. {{ISBN. 0199534047
11. Garvin, James L.. ''A building history of northern New England''. Hanover: University Press of New England, 2001. 10. Print.
12. Stones in gabion for foundation, done in Diez Casas Para Diez Familias (10x10)'s Casa Rosenda; see ''Design Like You Give a Damn 2'' book by Kate Stohr
13. [http://offshorewind.net/Other_Pages/Turbine-Foundations.html Offshore Wind Turbine Foundations] {{Webarchive. link. (2010-02-28 , 2009-09-09, accessed 2010-04-12.)
14. "Lynn & Inner Dowsing Offshore Wind Farms". MT Højgaard.