Plaster

Gypsum-based plaster used in spray fireproofing in a low-rise industrial building in Vancouver, British Columbia.

The term plaster can refer to gypsum plaster (also known as plaster of Paris), lime plaster, or cement plaster.

Types

Gypsum plaster

Plaster of Paris is a type of building material based on calcium sulphate hemihydrate, nominally CaSO₄·1/2H₂O. It is created by heating gypsum to about 150 °C.^[1]

2 CaSO₄·2H₂O → 2 CaSO₄·0.5H₂O + 3 H₂O (released as steam).

A large gypsum deposit at Montmartre in Paris is the source of the name.^[1][2] When the dry plaster powder is mixed with water, it re-forms into gypsum. Plaster is used as a building material similar to mortar or cement. Like those materials plaster starts as a dry powder that is mixed with water to form a paste which liberates heat and then hardens. Unlike mortar and cement, plaster remains quite soft after setting, and can be easily manipulated with metal tools or even sandpaper. These characteristics make plaster suitable for a finishing, rather than a load-bearing material.

One of the skills used in movie and theatrical sets is that of "plasterer", gypsum plaster often being used to simulate the appearance of surfaces of wood, stone, or metal. Nowadays, plasterers are just as likely to use expanded polystyrene, although the job title remains unchanged.

Type	Start of setting in	Setting time	Volume change
1.A-fastsetting	2 min	15 min	+1%
2.B-regularsetting	6min	30min	+1%
3.C-slowsetting	20min	90min	+2%

Lime plaster

Main article: Lime plaster

Lime plaster is a mixture of calcium hydroxide and sand (or other inert fillers). Carbon dioxide in the atmosphere causes the plaster to set by transforming the calcium hydroxide into calcium carbonate (limestone). Whitewash is based on the same chemistry.

To make lime plaster, limestone (calcium carbonate) is heated to produce quicklime (calcium oxide). Water is then added to produce slaked lime (calcium hydroxide), which is sold as a white powder. Additional water is added to form a paste prior to use. The paste may be stored in air-tight containers. Once exposed to the atmosphere, the calcium hydroxide turns back into limestone, causing the plaster to set.

Lime plaster was a common building material for wall surfaces in a process known as lath and plaster, whereby a series of wooden strips on a studwork frame was covered with a semi-dry plaster that hardened into a surface. The plaster used in most lath and plaster construction was mainly lime plaster, with a cure time of about a month. To stabilize the lime plaster during curing, small amounts of Plaster of Paris were incorporated into the mix. Because Plaster of Paris sets quickly, "retardants" were used to slow setting time enough to allow workers to mix large working quantities of lime putty plaster. A modern form of this method uses expanded metal mesh over wood or metal structures, which allows a great freedom of design as it is adaptable to both simple and compound curves. Today this building method has been partly replaced with drywall, also composed mostly of gypsum plaster. In both these methods a primary advantage of the material is that it is resistant to a fire within a room and so can assist in reducing or eliminating structural damage or destruction provided the fire is promptly extinguished.

Lime plaster is used for true frescoes. Pigments, diluted in water, are applied to the still wet plaster.

Cement plaster

See also: Cement render

Cement plaster is a mixture of suitable plaster, sand, portland cement and water which is normally applied to masonry interiors and exteriors to achieve a smooth surface. Interior surfaces sometimes receive a final layer of gypsum plaster. Walls constructed with stock bricks are normally plastered while face brick walls are not plastered. Various cement-based plasters are also used as proprietary spray fireproofing products. These usually use vermiculite as lightweight aggregate. Heavy versions of such plasters are also in use for exterior fireproofing, to protect LPG vessels, pipe bridges and vessel skirts.

Uses

In architecture

19th century plasterwork from House of Borujerdies in Kashan, Iran.

Plasterwork in Pompeii (79 AD)

Plaster may also be used to create complex detailing for use in room interiors. These may be geometric (simulating wood or stone) or naturalistic (simulating leaves, vines, and flowers) These are also often used to simulate wood or stone detailing found in more substantial buildings.

In art

See also: Plaster cast

Many of the greatest paintings in Europe, like Michelangelo's Sistine Chapel ceiling are executed in Fresco, meaning they are painted on a thin layer of wet plaster, called intonaco (in fact the general term for plaster in Italian); the pigments sink into this layer so that the plaster itself becomes the medium holding them, which accounts for the excellent durability of fresco. Additional work may be added a secco on top of the dry plaster, though this is generally less durable.^{[citation needed]}

Plaster may be cast directly into a damp clay mold. In creating this piece molds (molds designed for making multiple copies) or waste molds (for single use) would be made of plaster. This "negative" image, if properly designed, may be used to produce clay productions, which when fired in a kiln become terra cotta building decorations, or these may be used to create cast concrete sculptures. If a plaster positive was desired this would be constructed or cast to form a durable image artwork. As a model for stonecutters this would be sufficient. If intended for producing a bronze casting the plaster positive could be further worked to produce smooth surfaces. An advantage of this plaster image is that it is relatively cheap; should a patron approve of the durable image and be willing to bear further expense, subsequent molds could be made for the creation of a wax image to be used in lost wax casting, a far more expensive process. In lieu of producing a bronze image suitable for outdoor use the plaster image may be painted to resemble a metal image; such sculptures are suitable only for presentation in a weather-protected environment.

File:Sch op 8.jpg

Example of a stenciled plaster design

Plaster expands while hardening, then contracts slightly just before hardening completely. This makes plaster excellent for use in molds, and it is often used as an artistic material for casting. Plaster is also commonly spread over an armature (form), usually made of wire, mesh or other materials, a process called direct plaster.^{[citation needed]}

Plaster is often used in faux finishing to create textures for wall and furniture surfaces, as in Venetian Plaster or stenciling raised details. For these processes, limestone or acrylic based plaster may be employed.^{[citation needed]}

In medicine

Plaster is widely used as a support for broken bones; a bandage impregnated with plaster is moistened and then wrapped around the damaged limb, setting into a close-fitting yet easily removed tube, known as an orthopedic cast; however, this is slowly being replaced by a fibreglass variety.

Plaster is also used within radiotherapy when making immobilization casts for patients. Plaster bandages are used when constructing an impression of the patients head and neck, and liquid plaster is used to fill the impression and produce a plaster bust. Perspex is then vacuum formed over this bust creating an immobilization shell.^{[citation needed]}

In dentistry, plaster is used for mounting casts or models of oral tissues. These diagnostic and working models are usually made from dental stone, a stronger, harder and denser derivative of plaster which is manufactured from gypsum under pressure. Plaster is also used to invest or flask wax dentures, the wax being subsequently removed and replaced with the final denture base material which is cured in the plaster mold.^{[citation needed]}

In fire protection

Plasters have been in use in passive fire protection, as fireproofing products, for many decades.

The finished plaster releases water vapor when exposed to flame, acting to slow the spread of the fire, for as much as an hour or two depending on thickness. It also provides some insulation to retard heat flow into structural steel elements, that would otherwise lose their strength and collapse in a fire. Early versions of these plasters have used asbestos fibres, which have by now been outlawed in industrialized nations and have caused significant removal and re-coating work. More modern plasters fall into the following categories:

• fibrous (including mineral wool and glass fiber)
• cement mixtures either with mineral wool or with vermiculite
• gypsum plasters, leavened with polystyrene beads, as well as chemical expansion agents to decrease the density of the finished product

One differentiates between interior and exterior fireproofing. Interior products are typically less substantial, with lower densities and lower cost. Exterior products have to withstand more extreme fire and other environmental conditions. Exterior products are also more likely to be attractively tooled, whereas their interior cousins are usually merely sprayed in place. A rough surface is typically forgiven inside of buildings as dropped ceilings often hide them. Exterior fireproofing plasters are losing ground to more costly intumescent and endothermic products, simply on technical merit. Trade jurisdiction on unionized construction sites in North America remains with the plasterers, regardless of whether the plaster is decorative in nature or is used in passive fire protection. Cementitious and gypsum based plasters tend to be endothermic. Fireproofing plasters are closely related to firestop mortars. In fact, most firestop mortars can be sprayed and tooled very well, due to the fine detail work that is required of firestopping, which leads their mix designers to utilise concrete admixtures, that enable easier tooling than common mortars.

Illegal use

Plaster of Paris has been allegedly used illegally by professional boxers such as Antonio Margarito to harden the hand wraps that boxers wear under their boxing gloves to protect their hands. Margarito was caught attempting to insert pads into his hand wraps before his Jan. 24, 2009 title defense against Shane Mosley. The pads were spotted by Mosley's trainer, who was observing the hand wrapping prior to the fight. The pads were later shown to contain two of the primary elements used to make plaster of Paris, calcium and sulphur. Margarito was not allowed to use the pads in the fight, which Mosley won. Margarito has been suspended from boxing for at least one year.^[3]

Plaster of Paris has also been used to smuggle cocaine across the Mexico-United States border. The cocaine powder is mixed with the plaster mixture and sculpted. On May 29, 2008, a 6.6 pound crucifix sculpture was seized crossing the border when drug-sniffing dogs detected cocaine in the sculpture.^{[citation needed]}

Safety issues

The chemical reaction that occurs when plaster is mixed with water is exothermic in nature and can therefore cause severe burns. The potential dangers were demonstrated in January 2007, when a sixteen-year-old girl suffered third-degree burns after encasing her hands in a bucket of plaster as part of a school art project in Lincolnshire, England. The burns were so severe that she subsequently had both thumbs and six of her fingers amputated.^[4][5][6] For this reason only thin layers of plaster should be used, with time to cool between layers, or strips of cloth in plaster laid-up in the method used by the medical field. In place of plaster, alginate can safely be used for casting body parts.

Some variations of plaster that contain powdered silica or asbestos may present health hazards if inhaled. Asbestos is a known irritant when inhaled in powder form can cause cancer, especially in people who smoke, and inhalation can also cause asbestosis. Inhaled silica can cause silicosis and (in very rare cases) can encourage the development of cancer. Persons working regularly with plaster containing these additives should take precautions to avoid inhaling powdered plaster, cured or uncured. (Note that asbestos is rarely used in modern plaster formulations because of its carcinogenic^[7] effects.)

Special cleanup methods should be employed when using plaster products, as the residue can interfere with the flow of plumbing systems downstream of the disposal area. This will often solidify underwater and can plug up drains, stain gutters and sidewalks and spoil planting areas.

Trade jurisdiction

In unionized construction sites in North America, plaster is installed by contractors signatory to the Operative Plasterers’ and Cement Masons’ International Association (OPCMIA), which represents unionized plasterers.^{[citation needed]}

See also

Look up plaster in Wiktionary, the free dictionary.

• Anhydrite
• Cast Courts (Victoria and Albert Museum)
• Exothermic
• Fireproofing
• Firestop
• Gypsum
• International Union of Bricklayers and Allied Craftworkers
• Intumescent
• Intonaco
• Joint compound
• Limestone
• Passive fire protection
• Pargeting
• Phosphogypsum
• Plasterwork
• Polished plaster
• Ready-mix lightweight joint compound
• Stucco
• Venetian Plaster
• Wattle and daub

References

1. Staff. "CaSO4 , ½ H2O". LaFargePrestia. http://www.lafargeprestia.com/caso4___h2o.html. Retrieved 27 November 2008. 
2. Plaster of Paris. The American Heritage Dictionary of the English Language: Fourth Edition. 2000
3. [1]
4. "Amputation after art class burns". BBC News. 2007-03-23. http://news.bbc.co.uk/1/hi/education/6485481.stm. Retrieved 2010-05-22. 
5. "Fine as art pupil loses fingers". BBC News. 2009-10-12. http://news.bbc.co.uk/1/hi/england/lincolnshire/8303246.stm. Retrieved 2010-05-22. 
6. Britten, Nick (2009-10-13). "Schoolgirl, 16, lost eight fingers in plaster of Paris accident during art lesson". The Daily Telegraph (London). http://www.telegraph.co.uk/news/newstopics/politics/lawandorder/6311398/Schoolgirl-16-lost-eight-fingers-in-plaster-of-Paris-accident-during-art-lesson.html. Retrieved 2010-05-22. 
7. Hazardous chemicals: second report on the inquiry into hazardous chemicals. Canberra : Australia: Australian Government Publications Service. 1982. OCLC 66780789. "The carcinogenic activity of asbestos derives from its morphology, not its chemical nature" 

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