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caisson

 
Dictionary: cais·son   ('sŏn', -sən) pronunciation
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n.
  1. A watertight structure within which construction work is carried on under water.
  2. See camel (sense 2).
  3. A large box open at the top and one side, designed to fit against the side of a ship and used to repair damaged hulls under water.
  4. A floating structure used to close off the entrance to a dock or canal lock.
    1. A horse-drawn vehicle, usually two-wheeled, used to carry artillery ammunition and coffins at military funerals.
    2. A large box used to hold ammunition.

[French, from Old French, large box, alteration (influenced by caisse, chest) of casson, from Italian cassone, augmentative of cassa, box, from Latin capsa.]


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Britannica Concise Encyclopedia: caisson
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In engineering, a type of foundation most commonly used underwater for a bridge, but sometimes used in building construction. It is a large hollow structure that is sunk down through the earth by workers excavating from inside it; ultimately it becomes a permanent part of the pier. There are three types: the open caisson, open at both top and bottom; the box caisson, closed at the bottom; and the pneumatic caisson, with an airtight chamber to accommodate submerged workers. Caisson columns, typically 2 ft (0.6 m) or more in diameter, may be used as an alternative to bearing piles. A round hole is dug or bored to a stable layer of earth and temporarily supported by a steel shell, then filled with concrete poured around a cage of reinforcing bars.

For more information on caisson, visit Britannica.com.

Military History Companion: caisson
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A box for carrying ammunition, mounted on two or four wheels and joined to an artillery limber. In Napoleonic times, most armies adopted the Gribeauval system of standardized carriages with a 4 metre (13 foot) caisson divided into compartments for rounds, powder, and matches. The heavier the artillery, the more caissons were allocated. First-line caissons would be held about 55 yards (50 metres) behind the guns and second-line about 109 yards (100 metres), exchanging places when withdrawing for replenishment. Also a term describing sections of the massive prefabricated units used to make the Mulberry Harbours used in the Normandy invasion in 1944.

Bibliography

  • Haythornthwaite, P., Weapons and Equipment of the Napoleonic Wars (Poole, 1979).
  • Wise, T., Artillery of the Napoleonic Wars (London, 1979)

— Jonathan B. A. Bailey

US Military Dictionary: caisson
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[ܒkāܖsän; ܒkāsǝn]

ˈkāܖsän; ˈkāsǝn n. 1. a large watertight chamber, open at the bottom, from which the water is kept out by air pressure and in which construction work may be carried out under water.

2. a floating vessel or watertight structure used as a gate across the entrance of a dry dock or basin.

3. a chest or wagon for holding or conveying ammunition.

See the Introduction, Abbreviations and Pronunciation for further details.

Architecture: caisson
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1. A watertight structure or chamber, within which work is carried on in building foundations or structures below water level.
2. A sunken panel, esp. in a vaulted ceiling or the inside of a cupola; a coffer.

 
Columbia Encyclopedia: caisson
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caisson ('sən, -sŏn) [Fr.,=big box], in engineering, a chamber, usually of steel but sometimes of wood or reinforced concrete, used in the construction of foundations or piers in or near a body of water. There are several types. The open caisson is a cylinder or box, open at the top and bottom, of size and shape to suit the projected foundation and with a cutting edge around the bottom. It is sunk by its own weight and by excavation, then filled with concrete. Pneumatic caissons are usually employed in riverbed work or where quicksand is present. In this type the cylinder or box has an airtight bulkhead high enough above the cutting edge to permit men to work underneath it. The air in the chamber beneath the bulkhead is kept under pressure great enough to prevent the entrance of water, while shafts through the bulkhead permit the passage of men, equipment, and excavated material between the bottom and the surface. At the top of each shaft is an air lock to permit communication with the outside without altering the air pressure in the working chamber. As the working chamber moves down, the caisson above the bulkhead and about the shafts is filled with concrete, and when a sufficient depth or bedrock is reached, the working chamber itself is filled, so that there is a solid block of concrete from base to top. Workers leaving a pneumatic caisson after hours of labor under high pressure are given special decompression treatment to accustom them to the lower atmospheric pressure and thus to prevent caisson disease (see decompression sickness). A type of caisson often called a camel is used to raise sunken vessels. It consists of a cylinder filled with water, which is sunk, attached to the vessel, and emptied by pump or compressed air, so that its buoyancy can assist in raising the vessel. Caissons are also sometimes used for closing the entrance to dry docks or as a substitute for gates in canal locks.

Wikipedia: Caisson (engineering)
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In geotechnical engineering, a caisson is a retaining, watertight structure used, for example, to work on the foundations of a bridge pier, for the construction of a concrete dam, or for the repair of ships. These are constructed such that the water can be pumped out, keeping the working environment dry. When piers are to be built using an open caisson and it is not practical to reach suitable soil, friction pilings may be driven to form a suitable sub-foundation. These piles are connected by a foundation pad upon which the column pier is erected.

Schematic cross section of a pressurized caisson

Shallow caissons may be open to the air, whereas pneumatic caissons, which penetrate soft mud, are sealed at the top and filled with compressed air to keep water and mud out at depth. An airlock allows access to the chamber. Workers move mud and rock debris (called muck) from the edge of the workspace to a water filled pit, connected by a tube (called the muck tube) to the surface. A crane at the surface removes the soil with a clamshell bucket. The water pressure in the tube balances the air pressure, with excess air escaping up the muck tube. The pressurized air flow must be constant to ensure regular air changes for the workers and the height of the water in the muck tube must be carefully regulated to prevent unnecessary overpressure or low pressure which could allow excessive inflow of mud or water at the base of the caisson.

The caisson will be brought down through soft mud until a suitable foundation material is encountered. While bedrock is preferred, a stable, hard mud is sometimes used when bedrock is too deep.

Caisson disease is so named since it appeared in construction workers when they left the compressed atmosphere of the caisson and rapidly reentered normal (decompressed) atmospheric conditions. It is caused by the same processes as decompression sickness in divers. The Brooklyn Bridge, which was built with the help of caissons, had several workers killed or permanently injured by caisson disease during its construction, including the designer's son, Washington Roebling.[1]

Caissons have also been used in the installation of hydraulic elevators where a single-stage ram is installed below the ground level.

Caissons, codenamed Phoenix, were an integral part of the Mulberry harbours.

Contents

Types

Search Wikisource Wikisource has the text of the 1911 Encyclopædia Britannica article Caisson.

The four main types of caisson are box caisson, open caisson, compressed-air caisson and monolith caisson.

Box

Box caissons are prefabricated concrete boxes with sides and bottom. They are set down on a prepared base. Once in place they will be filled with concrete to become part of the permanent works, for example the foundation for a bridge pier. One problem with box caissons is that hollow concrete structures float (see WWII concrete ships) and so they must be ballasted or anchored to prevent this until they can be filled with concrete. Adjustable anchoring systems combined with a GPS survey allow engineers to position a box caisson with pinpoint accuracy. Elaborate anchoring systems may be required in tidal zones.

Open

Open caissons are similar to box caissons except that they do not have a bottom face. They are suitable for use in soft clays (e.g. in some river-beds) but not for where there may be large obstructions in the ground. Open caissons used in soft grounds or high water tables, where open trench excavations are impractical, can also be used to install deep manholes, pump stations and reception/launch pits for micro tunnelling, pipe jacking and other operations. The open caissons may fill with water during sinking. The material is excavated by clamshell excavator bucket on crane. The caissons are sunk by self-weight, concrete or water ballast placed on top, or by hydraulic jacks. The leading edge of the caisson or "cutting shoe" is sloped out at a sharp angle (usually made of steel) to aid sinking in a vertical manner. The shoe is generally wider than the caisson to reduce friction and the leading edge may be supplied with pressurised bentonite slurry (it swells in water to stabilise settlement or fill depressions/voids). The formation level subsoil may still not be suitable for excavation or bearing capacity. The water in the caisson (due to high water table) balances the upthrust forces of the soft soils underneath. If dewatered, the base may "pipe" or "boil" and the caisson sink. To combat this problem piles may be driven from the surface. H-beam sections (typical column sections, due to resistance to bending in all axes) may be driven at angles "raked" to rock or other firmer soils. The H-beams are left extended above the base. A reinforced concrete plug is poured under the water known as a "tremie pour". This will act as a pile cap and resist the upward forces of subsoil once dewatered. The piles will act as bearing (transmitting load to deeper soils or friction along their surface length) and anchorage (resist floatation in the same manner).

Compressed-air

Compressed-air caissons have the advantage of providing dry working conditions which are better for placing concrete. They are also well suited for foundations for which other methods might cause settlement of adjacent structures.

Monolithic

Monoliths are, as their name suggests, larger than the other types but are similar to open caissons. They are often found in quay walls where resistance to impact from ships is required.

Boat lift caissons

The word caisson is also used as a synonym for the water-filled trough part of caisson locks, canal lifts and inclines in which boats and ships rest whilst being lifted from one canal elevation to another. This is the opposite of the caissons mentioned earlier; the water is retained on the inside of the caisson, not excluded from the caisson.

Ventilation filtration systems

The word caisson is also used as a name for an airtight housing for ventilation filters in facilities that handle hazardous materials. The housing usually has an upstream compartment for a pre-filter element and a downstream compartment for a high-efficiency filter element. It may have multiple sets of compartments. The housing has gasketed access doors to allow for the change out of the filter elements. The housing is usually equipped with connection points used to test the efficiency of the filters and monitor changes in the differential pressure across the filter media.

Patents

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References

  1. ^ Butler WP (2004). "Caisson disease during the construction of the Eads and Brooklyn Bridges: A review". Undersea Hyperb Med 31 (4): 445–59. PMID 15686275. http://archive.rubicon-foundation.org/4028. Retrieved 2008-10-08. 

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Misspellings: caisson
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Common misspelling(s) of caisson

  • casion

 
 

 

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Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2009. Published by Houghton Mifflin Company. All rights reserved.  Read more
Britannica Concise Encyclopedia. Britannica Concise Encyclopedia. © 2006 Encyclopædia Britannica, Inc. All rights reserved.  Read more
Military History Companion. The Oxford Companion to Military History. Copyright © 2001, 2004 by Oxford University Press. All rights reserved.  Read more
US Military Dictionary. The Oxford Essential Dictionary of the U.S. Military. Copyright © 2001, 2002 by Oxford University Press, Inc. All rights reserved.  Read more
Architecture. McGraw-Hill Dictionary of Architecture and Construction. Copyright © 2003 by McGraw-Hill Companies, Inc. All rights reserved.  Read more
Columbia Encyclopedia. The Columbia Electronic Encyclopedia, Sixth Edition Copyright © 2003, Columbia University Press. Licensed from Columbia University Press. All rights reserved. www.cc.columbia.edu/cu/cup/ Read more
Wikipedia. This article is licensed under the Creative Commons Attribution/Share-Alike License. It uses material from the Wikipedia article "Caisson (engineering)" Read more
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