Coating

Coatings can be both decorative and have other functions. ^[3][7] A pipe carrying water for a fire suppression system can be coated with a red (for identification) anticorrosion paint. Most coatings to some extent protect the substrate, such as maintenance coatings for metals and concrete.^[8] A decorative coating can offer a particular reflective property, such as high gloss, satin, matte, or flat appearance.^[9]

A major coating application is to protect metal from corrosion.^{[10][11][12][13][14][15]} Automotive coatings are used to enhance the appearance and durability of vehicles. These include primers, basecoats, and clearcoats, primarily applied with spray guns and electrostatically.^[16]The body and underbody of automobiles receive some form of underbody coating.^[17] Such anticorrosion coatings may use graphene in combination with water-based epoxies.^[18]

Coatings are used to seal the surface of concrete, such as seamless polymer/resin flooring,^{[19][20][21][22][23]} bund wall/containment lining, waterproofing and damp proofing concrete walls, and bridge decks.^{[24][25][26][27]}

Most roof coatings are designed primarily for waterproofing, though sun reflection (to reduce heating and cooling) may also be a consideration. They tend to be elastomeric to allow for movement of the roof without cracking within the coating membrane.^[28][29][30]

Wood has been a key material in construction since ancient times, so its preservation by coating has received much attention.^[31] Efforts to improve the performance of wood coatings continue.^{[32][33][34][35][36]}

Coatings are used to alter tribological properties and wear characteristics.^[37][38] These include anti-friction, wear and scuffing resistance coatings for rolling-element bearings^[39]

Other functions of coatings include:

• Anti-fouling coatings^[40][41][42]
• Anti-microbial coatings.^[43]
• Anti-reflective coatings for example on spectacles.^[44]
• Coatings that alter or have magnetic, electrical or electronic properties.^[45][46][47]
• Flame retardant coatings.^[48][49][50] Flame-retardant materials and coatings are being developed that are phosphorus and bio-based.^[51] These include coatings with intumescent functionality.^[52]
• Non-stick PTFE coated cooking pots/pans.^[53]
• Optical coatings are available that alter optical properties of a material or object.^[54]
• UV coatings^[55]

Numerous destructive and non-destructive evaluation (NDE) methods exist for characterizing coatings.^{[56][57][58][59]} The most common destructive method is microscopy of a mounted cross-section of the coating and its substrate.^[60][61][62] The most common non-destructive techniques include ultrasonic thickness measurement, X-ray fluorescence (XRF),^[63] X-Ray diffraction (XRD)^[64] and micro hardness indentation.^[65] X-ray photoelectron spectroscopy (XPS) is also a classical characterization method to investigate the chemical composition of the nanometer thick surface layer of a material.^[66] Scanning electron microscopy coupled with energy dispersive X-ray spectrometry (SEM-EDX, or SEM-EDS) allows to visualize the surface texture and to probe its elementary chemical composition.^[67] Other characterization methods include transmission electron microscopy (TEM), atomic force microscopy (AFM), scanning tunneling microscope (STM), and Rutherford backscattering spectrometry (RBS). Various methods of Chromatography are also used,^[68] as well as thermogravimetric analysis.^[69]

The formulation of a coating depends primarily on the function required of the coating and also on aesthetics required such as color and gloss.^[70] The four primary ingredients are the resin (or binder), solvent which maybe water (or solventless), pigment(s) and additives.^{[example needed][71][72]} Research is ongoing to remove heavy metals from coating formulations completely.^[73]

For example on the basis of experimental and epidemiological evidence, it has been classified by the IARC (International Agency for Research on Cancer) as a human carcinogen by inhalation (class I) (ISPESL, 2008).^[74]

Coating processes may be classified as follows:

• Metalorganic vapour phase epitaxy
• Electrostatic spray assisted vapour deposition (ESAVD)
• Sherardizing
• Some forms of Epitaxy
  • Molecular beam epitaxy

• Cathodic arc deposition
• Electron beam physical vapor deposition (EBPVD)
• Ion plating
• Ion beam assisted deposition (IBAD)
• Magnetron sputtering
• Pulsed laser deposition
• Sputter deposition
• Vacuum deposition
• Vacuum evaporation, evaporation (deposition)
• Pulsed electron deposition (PED)

• Conversion coating
  • Autophoretic, the registered trade name of a proprietary series of auto-depositing coatings specifically for ferrous metal substrates^[75]
  • Anodising
  • Chromate conversion coating
  • Plasma electrolytic oxidation
  • Phosphate (coating)
• Ion beam mixing
• Pickled and oiled, a type of plate steel coating
• Plating
  • Electroless plating
  • nickel plating coating using a different material to preserve mechanical properties^[76]
  • Electroplating

• Spray painting
• High velocity oxygen fuel (HVOF)
• Plasma spraying
• Thermal spraying
• Kinetic metallization (KM)
• Plasma transferred wire arc thermal spraying
• The common forms of Powder coating

Common roll-to-roll coating processes include:

• Air knife coating
• Anilox coater
• Flexo coater
• Gap Coating
  • Knife-over-roll coating
• Gravure coating
• Hot melt coating- when the necessary coating viscosity is achieved by temperature rather than solution of the polymers etc. This method commonly implies slot-die coating above room temperature, but it also is possible to have hot-melt roller coating; hot-melt metering-rod coating, etc.
• Immersion dip coating
• Kiss coating
• Metering rod (Meyer bar) coating
• Roller coating
  • Forward roller coating
  • Reverse roll coating
• Silk Screen coater
  • Rotary screen
• Slot Die coating - Slot die coating was originally developed in the 1950s.^[77] Slot die coating has a low operational cost and is an easily scaled processing technique for depositing thin and uniform films rapidly, while minimizing material waste.^[78] Slot die coating technology is used to deposit a variety of liquid chemistries onto substrates of various materials such as glass, metal, and polymers by precisely metering the process fluid and dispensing it at a controlled rate while the coating die is precisely moved relative to the substrate.^[79] The complex inner geometry of conventional slot dies require machining or can be accomplished with 3-D printing.^[80]
• Extrusion coating - generally high pressure, often high temperature, and with the web travelling much faster than the speed of the extruded polymer
  • Curtain coating- low viscosity, with the slot vertically above the web and a gap between slot-die and web.
  • Slide coating- bead coating with an angled slide between the slot-die and the bead. Commonly used for multilayer coating in the photographic industry.
  • Slot die bead coating- typically with the web backed by a roller and a very small gap between slot-die and web.
  • Tensioned-web slot-die coating- with no backing for the web.
• Inkjet printing
• Lithography
• Flexography

• Langmuir-Blodgett
• Spin coating
• Dip coating

• Müller, Bodo (2006). Coatings formulation : an international textbook. Urlich Poth. Hannover: Vincentz. ISBN 3-87870-177-2. OCLC 76886114.
• Spyrou, Emmanouil (2012). Powder coatings chemistry and technology (3 ed.). Vincentz Network. ISBN 978-3-86630-884-8. OCLC 828194496.
• Titanium and titanium alloys, edited by C. Leyens and M. Peters, Wiley-VCH, ISBN 3-527-30534-3, table 6.2: overview of several coating systems and fabriction processes for titanium alloys and titanium aluminides (amended)
• Coating Materials for Electronic Applications: Polymers, Processes, Reliability, Testing by James J. Licari; William Andrew Publishing, Elsevier, ISBN 0-8155-1492-1
• High-Performance Organic Coatings, ed. AS Khanna, Elsevier BV, 2015, ISBN 978-1-84569-265-0