Difference between revisions of "Coating"

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== Description ==
 
== Description ==
  
A protective or decorative layer placed on the surface of another material (substrate). Many type of materials are used for coatings. Examples are [[Fabric|Fabrics]], [[Metal|Metals]], [[Paint|Paints]], [[varnish|Varnishes]] and [[Plastic film|Polymer films]]. Coatings may be draped, painting, sprayed, baked, shrink-wrapped, or vapor deposited onto the substrate.
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A thin layer deposited or applied on the surface of an object (substrate). The primary purpose of applying a coating is to improve an objects critical properties and to create a protective barrier against deterioration of the surface. Secondary purposes may be aesthetic.  Coatings may be applied as liquids, gases or solids e.g. powder coatings. 
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Examples of the types of materials are used for coatings include:
 +
* [[Fabric|Fabrics]], [[Metal|Metals]], [[Paint|Paints]], [[varnish|Varnishes]] and [[Plastic film|Polymer films]].  
 +
 
 +
Often coatings are used to achieve multiple goals. For example, coatings can be formulated to:
 +
* Seal a surface, form a barrier, change color, produce or minimize texture, maintain surface appearance, be anti-corrosive, be anti-reflective, decrease friction, increase wearability, minimize light transmission, provide adhesion, prevent adhesion (non-stick), provide flame resistance, and to provide identification. 
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 +
A major consideration for most coating processes is to control coating thickness and adhesion. Methods of achieving this range from a simple brush to expensive precision machinery. 
 +
* Application processes include: draping, brushing, rolling, dipping, spraying, baking, shrink-wrapping, vapor deposition, electroplating, anodizing, printing and laminating.
 +
 
 +
{| class="wikitable"
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|-
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! '''Synthetic  coatings'''
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! '''Process'''
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! '''Application'''
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! '''Advantages'''
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! '''Disadvantages'''
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|-
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| [[Acrylic resin|Acrylic]]
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| Premixed solutions of acrylic  polymer bits dispersed in water; Cures by drying; Multiple options for clear  or colored coatings.
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| May emit acetic acid vapors  (allow 4 weeks cure); cleans with soap and water while wet
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| Cost effective, dry quickly easy  to use; Resists weathering and fading; Environmentally friendly
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| Surface must be well-prepared  for optimal adhesion
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|-
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| [[Alkyd resin|Alkyd]]
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| Oil-modified polyester that  cures through oxidation
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| May release peroxides and  carboxylic acids; cleans with solvent based products
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| Glossy finish and robust; Resists weathering and wear; Glossy finish
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| Slow drying with strong odor during  application
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|-
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| Ceramic  coating
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| Resin containing silica and  titanium dioxide that chemically bonds to paint; Applied using a spray gun
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| Primarily used as a high gloss top coat for autos
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| Improves durability and wear  resistance; Has low surface tension;
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| Cannot be used directly on a  substrate; Provides little protection from tensile or compressive stress
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|-
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| [[Epoxy]]
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| Two component solution (epoxy  resin and hardener) carefully mixed prior to used; Water-based options  available
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| Careful mixing and curing  required
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| Excellent for metal surfaces; High moisture resistance; Resists corrosion and damage
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| Surface must be well-prepared; Coatings are sensitive to UV light and temperature; Low flexibility
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|-
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| [[Laminate]]
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| A multilayer material or a film used to provide a protective layer
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| Plastic or aluminum sheets adhered to the substrate
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| Provide a barrier to moisture or volatile organic
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| The film must be uniformly sealed without any holes or gaps
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|-
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| Polyaspartic
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| Polyurea coatings formed by  reaction with polyisocyanates and aspartic esters
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| Buildings, bridges, automobiles
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| Cures rapidly; Highly durable; Resists weathering and wear; Maintains high gloss and does not yellow
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| Surface must be well-prepared to  ensure adhesion
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|-
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| [[Polyester resin|Polyester]]
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| Synthetic resin that hardens  with a catalyst
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|
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| Strong, durable surface that withstands abrasion, weathering and wear; Flexibility minimizes cracking
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| Application requires precise  control over temperature and humidity to fully cure.
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|-
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| [[Polyurethane |Polyurethane]]  (aliphatic)
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| Pre-mixed solution of a polyol  with an isocyanate; cures with moisture in air; water-based options available
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| Must be cured completely at  optimal conditions of moisture and temperature; isocyanate is a carcinogen
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| Often used as a top coat; Highly  durable; Resistant to wear and weather; Excellent gloss and color retention; Low VOC formulations available
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|
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|-
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| Powder  Coating
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| An electrostatic process to  adhere powder-based substance onto a charged metal surface followed by heat  curing.
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| Metals, household appliances,  automobile parts
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| Coatings are durable with many  color options; No solvents are used thus no VOCs emissions; Typically used on  metals
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| Requires spray booths and ovens; Difficult to achieve thin coatings
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|-
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| [[Silicone resin|Silicone]]
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| Oligosiloxanes dispersed in  water that dry into a flexible silicone resin
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| Spray, dip or paint; Clean with  soap and water; Does not need primer; Non-toxic
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| Heat and moisture resistant; Good adhesion; Highly flexible; May be used on multiple surfaces even fabric  and concrete
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| Requires up to 48 hours to fully  cure; Heat and/or UV light can speed curing
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|-
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| Polysiloxane
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| Option that combines silicone  and  polyurethane properties, without  using isocyanates
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| Applied directly to primed steel  or previously painted substrates by brush, roller or spray; Low VOCs
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| Durable, glossy finish; Highly  resistant to UV, weather, and chemicals; Retains color and gloss
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| Surface must be well-prepared to  ensure adhesion; Low flexibility
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|}
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{| class="wikitable"
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|-
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! Natural  coatings
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! Examples
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! Application
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! Advantages
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! Disadvantages
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|-
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| [[Drying  oil]] (unbaked)
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| [[Linseed oil]], [[Tung oil]], [[Tall oil]], [[Poppy seed oil|Poppyseed oil]], [[perilla oil]]; [[sunflower oil]]; [[hempseed oil]]; [[safflower oil]];  [[lumbang oil]]; [[oiticica oil]]; [[stillingia oil]]; [[walnut oil]]
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| After application to a  substrate, drying oils auto-oxide in ambient condition forming a thin  non-tacky tough film. The curing time for each type of oil is depentent on  its degree of unsaturation. Additives can speed the drying time. A solvent is  required for cleanup.
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| Efficient provides antifungal  and antibacterial properties, water repellency, and protection from UV; Typically used for wood protection and preservation
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| Known to release peroxides for  the first few days and carboxylic acids for many weeks or many months; Many  oils will discolor with age, especially with exposure to UV light; dDifficult  to remove
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|-
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| [[Carbohydrate]]
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| [[Starch]], [[cellulose]], [[pectin]], [[Gum|Gums]],  [[Agar]], [[Carrageenan]],
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| Most materials swell in water to form a gel that dries by releasing water; Additives, such as lignin, can decrease biological attacks
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| Most are typically used as  adhesives, consolidants, emulsifiers, and thickeners; Films are thin, flexible and matte;  Non-toxic; Biodegradable.
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| Films usually shrink on drying  and are not optically transparent; they are susceptible to biological attack;  Rarely used as a durable coating
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|-
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| [[Mineral]]
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| [[whitewash]]  ([[calcium carbonate]]/[[calcium hydroxide]]); [[water glass]] ([[potassium silicate]],   [[sodium silicate]], or [[calcium silicate]])
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| Appropriate for  concrete, stucco, brick, plaster or any adobe-type of surfaces; Some have  been used on glass, porcelain, leather and textiles; Brushes and rollers,  while still wet, clean easily with water.
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| Coatings penetrate and  fill pores and cracks; good durability; Non-flammable providing  passive fire protection
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| Process is not reversible
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|-
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| [[Protein]]
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| [[Casein]], [[collagen]],  [[gelatin]],    [[albumin]] (egg white),  [[keratin]],  [[whey]], [[Soybean glue|Soy protein]], [[zein]], [[animal glue]]
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| Ensure formula does not contain a drying oil in the formula, Brushes and rollers, while still wet, should clean easily  with water.
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| Suitable for  most objects and outside of case; Non toxic; Biodegradable; Most often used as adhesive and not a coating
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| Most are  hydrophilic; Hot water will cause breakdown to smaller components; Additives are need to produce a durable film;
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|-
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| Resin  ([[Varnish]])
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| [[Shellac]], [[dammar]], [[mastic]],  [[sandarac]], [[rosin]], [[amber]], [[copal]], [[myrrh]]
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| Soluble in hydrocarbon solvents (such as  turpentine) and sometimes in alcohol; Drying occurs with solvent evaporation; Solvent required for clean-up
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| Suitable in enclosures after complete drying; Avoid  direct contact with object in a humid environment as surface may become sticky;  Safe for most collections;
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| Poor vapor   barrier unless many layers are used; Dry film becomes sticky in moist  environments; Solvent is the main VOC; May discolor with age especially with  exposure to UV light.
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|-
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| [[Wax]]  (plant or mineral)
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| [[Beeswax]], [[lanolin]], [[spermaceti]],  [[lac wax]], [[Carnauba wax|Carnauba]], [[Candelilla wax|Candelilla]], [[Bayberry wax|Bayberry]], [[Japan wax]], [[paraffin]], [[Ceresin wax|Ceresin]],  [[Ozocerite]], [[Montan wax|Montan]], [[Microcrystalline wax|Microcrystalline]]
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| Waxes are thermoplastic and melt  at low temperatures (between 40 and 100C); Soluble in organic solvents; As a  coating, they often need repeated depositions for layers to build up.
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| Easy to apply; produces a smooth,  glossy surface; Hydrophobic and are often used on wood
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|
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|}
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{| class="wikitable"
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|-
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! Metal Coatings
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! Process
 +
! Substrates
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! Advantages
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! Disadvantages
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|-
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| Anodized
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| Formation of protective oxide  layer; immersion in electrolytic solution
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| Non-ferrous metals, primarily  aluminum
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| Long-lasting, chemically  stable,, non-toxic, no dangerous by-products
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| Unsuitable for ferrous metals;  limited options for colors
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|-
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| Galvanized
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| Immersion of metal in molten  zinc bath to produce protective zinc carbonate layer
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| Steel, bolts and nuts, air  ducts, trash cans
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| Highly stable, adheres tightly;  zinc coating actively covers scratches, cuts and dents after they occur
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| Expensive for large items; color  is dull gray
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|-
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| Electroplated  (electrodeposition)
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| Deposition of a thin layer of  one metal on the surface of another; both metal are placed in electrolytic  solution
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| Copper, nickel, gold, silver,  chrome, zinc tin, jewelry, ornaments;
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| Excellent corrosion resistance;  often increases in mechanical properties, can produce aesthetic appearance
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| Expensive; produces non-uniform  coating thicknesses; potentially toxic; solutions contain environmentally  harmful chemicals
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|}
  
 
== Synonyms and Related Terms ==
 
== Synonyms and Related Terms ==
  
 
coat; surface coat; Anstrich (Deut.); enduit (Fr.); revêtement (Fr.); recubrimiento (Esp.); rivestimento (It.); revestimento (Port.)
 
coat; surface coat; Anstrich (Deut.); enduit (Fr.); revêtement (Fr.); recubrimiento (Esp.); rivestimento (It.); revestimento (Port.)
 +
 +
==Collection Risks==
 +
(from Tetreault 2017) "Coatings formed by oxidative polymerization, such as oil-based paints, oil-based urethanes, alkyds, melamine and epoxy esters (one-component or one-part systems), should be avoided in museums because they release acids and peroxides that can harm objects, especially papers, metal objects (lead, copper and their alloys) and black and white photographs. Fortunately, with new volatile organic compound (VOC) regulations in Canada and the United States, these coatings are becoming less and less available. The coatings that are generally acceptable in archival and museum contexts are acrylic or acrylic-urethane emulsion paints (latex) and, for special applications, two-part epoxy and two-part urethane paints."
  
 
==Resources and Citations==
 
==Resources and Citations==
 
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* Jean Tétreault, ''Products Used in Preventive Conservation'' CCI, December 2017. [https://www.researchgate.net/publication/323153775_Products_Used_in_Preventive_Conservation Link]
 +
* Corrosionpedia: [https://www.corrosionpedia.com/definition/286/coating-corrosion Coatinghttps://chansmachining.com/types-of-industrial-coating/] Accessed October 2024
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* Wikipedia: [https://en.wikipedia.org/wiki/Coating Coating] Accessed Oct 2024
 +
* Chans Machining: [https://chansmachining.com/types-of-industrial-coating/ Industrial coatings] Accessed October 2024
 
* Richard S. Lewis, ''Hawley's Condensed Chemical Dictionary'', Van Nostrand Reinhold, New York, 10th ed., 1993
 
* Richard S. Lewis, ''Hawley's Condensed Chemical Dictionary'', Van Nostrand Reinhold, New York, 10th ed., 1993
 
* ASTM, "Standard Terminology Relating to Paint, Varnish, Lacquer and Related Products", Annual Book of ASTM Standards, Section 6, Paints, Related Coatings and Aromatics, ASTM, D16, 7-Jan, Jul-96
 
* ASTM, "Standard Terminology Relating to Paint, Varnish, Lacquer and Related Products", Annual Book of ASTM Standards, Section 6, Paints, Related Coatings and Aromatics, ASTM, D16, 7-Jan, Jul-96
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[[Category:Materials database]]
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[[Category:Materials database]][[Category:MWG]][[Category:Coatings]][[Category:Comparisons]]

Latest revision as of 11:17, 20 October 2024

Coated wood soldier
MFA# 55.801

Description

A thin layer deposited or applied on the surface of an object (substrate). The primary purpose of applying a coating is to improve an objects critical properties and to create a protective barrier against deterioration of the surface. Secondary purposes may be aesthetic. Coatings may be applied as liquids, gases or solids e.g. powder coatings.

Examples of the types of materials are used for coatings include:

Often coatings are used to achieve multiple goals. For example, coatings can be formulated to:

  • Seal a surface, form a barrier, change color, produce or minimize texture, maintain surface appearance, be anti-corrosive, be anti-reflective, decrease friction, increase wearability, minimize light transmission, provide adhesion, prevent adhesion (non-stick), provide flame resistance, and to provide identification.

A major consideration for most coating processes is to control coating thickness and adhesion. Methods of achieving this range from a simple brush to expensive precision machinery.

  • Application processes include: draping, brushing, rolling, dipping, spraying, baking, shrink-wrapping, vapor deposition, electroplating, anodizing, printing and laminating.
Synthetic coatings Process Application Advantages Disadvantages
Acrylic Premixed solutions of acrylic polymer bits dispersed in water; Cures by drying; Multiple options for clear or colored coatings. May emit acetic acid vapors (allow 4 weeks cure); cleans with soap and water while wet Cost effective, dry quickly easy to use; Resists weathering and fading; Environmentally friendly Surface must be well-prepared for optimal adhesion
Alkyd Oil-modified polyester that cures through oxidation May release peroxides and carboxylic acids; cleans with solvent based products Glossy finish and robust; Resists weathering and wear; Glossy finish Slow drying with strong odor during application
Ceramic coating Resin containing silica and titanium dioxide that chemically bonds to paint; Applied using a spray gun Primarily used as a high gloss top coat for autos Improves durability and wear resistance; Has low surface tension; Cannot be used directly on a substrate; Provides little protection from tensile or compressive stress
Epoxy Two component solution (epoxy resin and hardener) carefully mixed prior to used; Water-based options available Careful mixing and curing required Excellent for metal surfaces; High moisture resistance; Resists corrosion and damage Surface must be well-prepared; Coatings are sensitive to UV light and temperature; Low flexibility
Laminate A multilayer material or a film used to provide a protective layer Plastic or aluminum sheets adhered to the substrate Provide a barrier to moisture or volatile organic The film must be uniformly sealed without any holes or gaps
Polyaspartic Polyurea coatings formed by reaction with polyisocyanates and aspartic esters Buildings, bridges, automobiles Cures rapidly; Highly durable; Resists weathering and wear; Maintains high gloss and does not yellow Surface must be well-prepared to ensure adhesion
Polyester Synthetic resin that hardens with a catalyst Strong, durable surface that withstands abrasion, weathering and wear; Flexibility minimizes cracking Application requires precise control over temperature and humidity to fully cure.
Polyurethane (aliphatic) Pre-mixed solution of a polyol with an isocyanate; cures with moisture in air; water-based options available Must be cured completely at optimal conditions of moisture and temperature; isocyanate is a carcinogen Often used as a top coat; Highly durable; Resistant to wear and weather; Excellent gloss and color retention; Low VOC formulations available
Powder Coating An electrostatic process to adhere powder-based substance onto a charged metal surface followed by heat curing. Metals, household appliances, automobile parts Coatings are durable with many color options; No solvents are used thus no VOCs emissions; Typically used on metals Requires spray booths and ovens; Difficult to achieve thin coatings
Silicone Oligosiloxanes dispersed in water that dry into a flexible silicone resin Spray, dip or paint; Clean with soap and water; Does not need primer; Non-toxic Heat and moisture resistant; Good adhesion; Highly flexible; May be used on multiple surfaces even fabric and concrete Requires up to 48 hours to fully cure; Heat and/or UV light can speed curing
Polysiloxane Option that combines silicone and polyurethane properties, without using isocyanates Applied directly to primed steel or previously painted substrates by brush, roller or spray; Low VOCs Durable, glossy finish; Highly resistant to UV, weather, and chemicals; Retains color and gloss Surface must be well-prepared to ensure adhesion; Low flexibility
Natural coatings Examples Application Advantages Disadvantages
Drying oil (unbaked) Linseed oil, Tung oil, Tall oil, Poppyseed oil, Perilla oil; Sunflower oil; Hempseed oil; Safflower oil; Lumbang oil; Oiticica oil; Stillingia oil; Walnut oil After application to a substrate, drying oils auto-oxide in ambient condition forming a thin non-tacky tough film. The curing time for each type of oil is depentent on its degree of unsaturation. Additives can speed the drying time. A solvent is required for cleanup. Efficient provides antifungal and antibacterial properties, water repellency, and protection from UV; Typically used for wood protection and preservation Known to release peroxides for the first few days and carboxylic acids for many weeks or many months; Many oils will discolor with age, especially with exposure to UV light; dDifficult to remove
Carbohydrate Starch, Cellulose, Pectin, Gums, Agar, Carrageenan, Most materials swell in water to form a gel that dries by releasing water; Additives, such as lignin, can decrease biological attacks Most are typically used as adhesives, consolidants, emulsifiers, and thickeners; Films are thin, flexible and matte; Non-toxic; Biodegradable. Films usually shrink on drying and are not optically transparent; they are susceptible to biological attack; Rarely used as a durable coating
Mineral Whitewash (Calcium carbonate/Calcium hydroxide); Water glass (Potassium silicate, Sodium silicate, or Calcium silicate) Appropriate for concrete, stucco, brick, plaster or any adobe-type of surfaces; Some have been used on glass, porcelain, leather and textiles; Brushes and rollers, while still wet, clean easily with water. Coatings penetrate and fill pores and cracks; good durability; Non-flammable providing passive fire protection Process is not reversible
Protein Casein, Collagen, Gelatin, Albumin (egg white), Keratin, Whey, Soy protein, Zein, Animal glue Ensure formula does not contain a drying oil in the formula, Brushes and rollers, while still wet, should clean easily with water. Suitable for most objects and outside of case; Non toxic; Biodegradable; Most often used as adhesive and not a coating Most are hydrophilic; Hot water will cause breakdown to smaller components; Additives are need to produce a durable film;
Resin (Varnish) Shellac, Dammar, Mastic, Sandarac, Rosin, Amber, Copal, Myrrh Soluble in hydrocarbon solvents (such as turpentine) and sometimes in alcohol; Drying occurs with solvent evaporation; Solvent required for clean-up Suitable in enclosures after complete drying; Avoid direct contact with object in a humid environment as surface may become sticky; Safe for most collections; Poor vapor barrier unless many layers are used; Dry film becomes sticky in moist environments; Solvent is the main VOC; May discolor with age especially with exposure to UV light.
Wax (plant or mineral) Beeswax, Lanolin, Spermaceti, Lac wax, Carnauba, Candelilla, Bayberry, Japan wax, Paraffin, Ceresin, Ozocerite, Montan, Microcrystalline Waxes are thermoplastic and melt at low temperatures (between 40 and 100C); Soluble in organic solvents; As a coating, they often need repeated depositions for layers to build up. Easy to apply; produces a smooth, glossy surface; Hydrophobic and are often used on wood
Metal Coatings Process Substrates Advantages Disadvantages
Anodized Formation of protective oxide layer; immersion in electrolytic solution Non-ferrous metals, primarily aluminum Long-lasting, chemically stable,, non-toxic, no dangerous by-products Unsuitable for ferrous metals; limited options for colors
Galvanized Immersion of metal in molten zinc bath to produce protective zinc carbonate layer Steel, bolts and nuts, air ducts, trash cans Highly stable, adheres tightly; zinc coating actively covers scratches, cuts and dents after they occur Expensive for large items; color is dull gray
Electroplated (electrodeposition) Deposition of a thin layer of one metal on the surface of another; both metal are placed in electrolytic solution Copper, nickel, gold, silver, chrome, zinc tin, jewelry, ornaments; Excellent corrosion resistance; often increases in mechanical properties, can produce aesthetic appearance Expensive; produces non-uniform coating thicknesses; potentially toxic; solutions contain environmentally harmful chemicals

Synonyms and Related Terms

coat; surface coat; Anstrich (Deut.); enduit (Fr.); revêtement (Fr.); recubrimiento (Esp.); rivestimento (It.); revestimento (Port.)

Collection Risks

(from Tetreault 2017) "Coatings formed by oxidative polymerization, such as oil-based paints, oil-based urethanes, alkyds, melamine and epoxy esters (one-component or one-part systems), should be avoided in museums because they release acids and peroxides that can harm objects, especially papers, metal objects (lead, copper and their alloys) and black and white photographs. Fortunately, with new volatile organic compound (VOC) regulations in Canada and the United States, these coatings are becoming less and less available. The coatings that are generally acceptable in archival and museum contexts are acrylic or acrylic-urethane emulsion paints (latex) and, for special applications, two-part epoxy and two-part urethane paints."

Resources and Citations

  • Jean Tétreault, Products Used in Preventive Conservation CCI, December 2017. Link
  • Corrosionpedia: Coatinghttps://chansmachining.com/types-of-industrial-coating/ Accessed October 2024
  • Wikipedia: Coating Accessed Oct 2024
  • Chans Machining: Industrial coatings Accessed October 2024
  • Richard S. Lewis, Hawley's Condensed Chemical Dictionary, Van Nostrand Reinhold, New York, 10th ed., 1993
  • ASTM, "Standard Terminology Relating to Paint, Varnish, Lacquer and Related Products", Annual Book of ASTM Standards, Section 6, Paints, Related Coatings and Aromatics, ASTM, D16, 7-Jan, Jul-96
  • Random House, Webster's Encyclopedic Unabridged Dictionary of the English Language, Grammercy Book, New York, 1997
  • The American Heritage Dictionary or Encarta, via Microsoft Bookshelf 98, Microsoft Corp., 1998
  • Art and Architecture Thesaurus Online, http://www.getty.edu/research/tools/vocabulary/aat/, J. Paul Getty Trust, Los Angeles, 2000