A retaining wall is not randomly constructed, but should be selected and designed to suit individual ground and site conditions
Once thorough ground/site investigations have been completed there are a number of different types of retaining wall that may be selected. Basically, a retaining wall is not randomly constructed, but should be selected and designed to suit individual ground and site conditions. There are various types of retaining solutions such as embedded retaining walls (e.g sheet piling) and reinforced soil walls, however, for the purposes of this article I plan to focus on gravity retaining walls (also known as mass retaining walls) which rely solely on their own weight to stand up and withstand all of the loads and pressures that they will be exposed to. There a wide selection of gravity retaining wall solutions including Masonry (unreinforced), Concrete, (sometimes with masonry facing), Gabions and Crib retaining walls:
Masonry (unreinforced) Retaining Walls
These types of retaining wall are some of the earliest know retaining structures and are formed from masonry which has been mortared together. The lateral forces from backfill is resisted by the weight of wall itself, and due to their robust nature, they develop little or no tension. Masonry retaining walls are not usually reinforced and are generally economical fro heights up to approximately three metres.
You will note from the image below from Chudley’s Building Construction handbook that a masonry retaining wall will need to incorporate weepholes positioned at approximately two metre centres in order to help relieve hydrostatic pressure. Construction of a masonry retaining wall is generally labour intensive, often requiring deep excavation, temporary support, construction and backfilling. Clearly this can provide significant safety issues, can be time consuming and often prove to be very expensive.
Source: Chudley R. & Greeno R (2005), Building Construction Handbook. Elsevier Butterworth Heinemann |
Masonry Retaining Wall - Source: http://www.archiexpo.com/ |
Concrete retaining walls provide some flexibility in design as they allow wet concrete poured in-situ with the use of temporary timber formwork, or pre-cast concrete units to be used. Mass concrete retaining walls will be designed using similar principles described above for masonry retaining walls and will have the same safety, labour and cost issues. Concrete retaining walls are typically designed with a horizontal footing and a vertical stem wall. These types of retaining wall are referred to as Concrete Cantilever retaining walls. These walls allow a much thinner stem and therefore less construction material because the cross section of the wall is much thinner. Concrete Cantilever walls utilize the weight of the backfill to provide most of the resistance to sliding and overturning, and because of this are economical up to heights of ten metres, much higher than the possibilities for unreinforced masonry retaining walls. The image below from Chudley’s Building Construction handbook details a section through a Concrete Cantilever wall where you will note how the backfill load applied to the horizontal footing will help to stabilise the wall. The further image below also demonstrates how concrete pre-cast units can be used in addition to in-situ for Concrete Cantilever retaining walls.
Source: Chudley R. & Greeno R (2005), Building Construction Handbook. Elsevier Butterworth Heinemann |
Pre-cast Concrete Retaining Wall - Source: http://groundtechgeo.com.au/ |
A slight variation to the Concrete Cantilever wall is the use/installation of Monolithic Counterforts. Counterfort walls are cantilever walls strengthened with counterforts monolithic with the back of the wall slab and base slab. The counterforts act as tension stiffeners and connect the wall slab and the base to reduce the bending and shearing stresses. Counterforts are used for high walls with heights greater than 8 to 12 m. They are also used for situations where high lateral pressures occur, e.g. where the backfill is heavily surcharged.
Pre-Cast Concrete Counterfort Retaining Wall - Source: http://designerpropertiestexas.com/ |
Gabions
Gabions are welded wire or rectangular wire mesh boxes, which are then filled with rock, and used for construction of erosion control structures and to stabilize steep slopes. Gabion design is based upon mass gravity design as detailed above and therefore relies on the mass and self weight of the Gabions to resist any imposed loads or forces. Stability is achieved through a combination of the self weight of the rocks and its interlocking and frictional strength. Gabions are often constructed with stepped face and because of the voids between the rocks are able to more easily absorb forces by retained earth and flowing water. Generally Gabions are more economical than other retaining structures as they require little maintenance, no skilled labour, minimum foundation preparation and no costly drainage systems.
Gabion Retaining Wall - Source: http://terraqua-es.co.uk/erosion-control/woven-gabions/ |
Crib walls are made up of interlocking individual ‘boxes’ which are usually consist of timber or pre-cast concrete (see image below). Crushed stone or other coarse granular materials to create a free draining structure are used to fill the individual boxes. Crib walls are popular because they are versatile, strong, light weight, cost effective, fast and easy to install. Another advantage of crib walls, due to their form, is that they can be further enhanced within built geo-textile planters, allowing a faster "green up“ time than with other retaining solutions. The advantage of using concrete instead of timber is that concrete components provide for long term durability and will not rot or warp, however the component cost is likely to be higher.
Timber Crib Retaining Wall - Source: http://www.geoforte.co.uk/ |
Concrete Crib Retaining Wall - Source: http://www.retainingsolutions.com.au/ |
I have provided an overview of typical types of retaining wall solutions above however there are numerous other engineering solutions than may be used depending upon ground conditions, loadings, location and the like. In order to select an appropriate retaining wall, in most cases it will be necessary to seek professional advice, as the consequences of poor or inappropriate design can prove to be disastrous.
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