- Foundation (engineering)
A foundation is a
structurethat transfers loads to the earth. Foundations are generally broken into two categories: shallow foundationsand deep foundations.
Shallow foundations are usually embedded 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 lineand transfer the weight from walls and columns to the soil or bedrock. Another common type is the slab-on-grade foundation where the weight of the building is transferred to the soil through a concreteslab placed at the surface.
Deep foundations are used to transfer a load from a structure through an upper weak layer of soil to a stronger deeper layer of soil. There are different types of deep foundations including helical piles, impact driven piles, drilled shafts, caissons, piers, and earth stabilized columns. The naming conventions for different types of foundations vary between different engineers. Historically, piles were
wood, later steel, reinforced concrete, and pre-tensioned concrete. Sometimes these foundations penetrate bedrock.
Earthquake-protective foundation, also known as "Seismic" or "Base Isolation System", is a collection of structural elements which should substantially
decouplea superstructurefrom its substructure resting on a shaking ground thus protecting a buildingor non-building structure's integrity (see, e.g., the concurrentshake-table crash testing video on Earthquake Protector). It is believed to be the most powerful tool of the earthquake engineeringpertaining to the passive structural vibration controltechnologies.
Foundations are designed to have an adequate load capacity with limited settlement by a
geotechnical engineer, and the foundation itself is 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 the foundation is supporting. It is necessary that a foundation is not loaded beyond its bearing capacity or the foundation will "fail".
Other design considerations include scour and
frost heave. Scour is when flowing water removes supporting soil from around a foundation (like a pier supporting a bridge over a river). Frost heave occurs when water in the ground freezes to form ice lenses.
Changes in soil moisture can cause
expansive clayto swell and shrink. This swelling can vary across the footing due to seasonal changes or the effects of vegetation removing moisture. The variation in swell can cause the soil to distort, cracking the structure over it. This is a particular problem for house footings in semi-arid climates such as South Australia, Southwestern US, Turkey, Israel, Iranand South Africawhere wet winters are followed by hot dry summers. Raft slabs with inherent stiffness have been developed in Australia with capabilities to resist this movement.
When structures are built in areas of
permafrost, special consideration must be given to the thermal effect the structure will have on the permafrost. Generally, the structure is designed in a way that tries to prevent the permafrost from melting.
*Elevated building foundation
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