On Coating Techniques for Surface Protection: A Review

A wide variety of coating methods and materials are available for different coating applications with a common purpose of protecting a part or structure exposed to mechanical or chemical damage. A benefit of this protective function is to decrease manufacturing cost since fabrication of new parts is...

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Bibliographic Details
Published inJournal of Manufacturing and Materials Processing Vol. 3; no. 1; p. 28
Main Authors Fotovvati, Behzad, Namdari, Navid, Dehghanghadikolaei, Amir
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2019
Subjects
Arc deposition
Arc spraying
Biocompatibility
Ceramic coatings
Chemical damage
Chemical vapor deposition
Copper
Corrosion resistance
Materials selection
Mechanical properties
Oxidation
Physical vapor deposition
Production costs
Protective coatings
Sol-gel processes
sol–gel
surface modification
Thermal energy
thermal spray
vapor deposition
Wear resistance
Online AccessGet full text
ISSN2504-4494
2504-4494
DOI10.3390/jmmp3010028

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Abstract A wide variety of coating methods and materials are available for different coating applications with a common purpose of protecting a part or structure exposed to mechanical or chemical damage. A benefit of this protective function is to decrease manufacturing cost since fabrication of new parts is not needed. Available coating materials include hard and stiff metallic alloys, ceramics, bio-glasses, polymers, and engineered plastic materials, giving designers a variety freedom of choices for durable protection. To date, numerous processes such as physical/chemical vapor deposition, micro-arc oxidation, sol–gel, thermal spraying, and electrodeposition processes have been introduced and investigated. Although each of these processes provides advantages, there are always drawbacks limiting their application. However, there are many solutions to overcome deficiencies of coating techniques by using the benefits of each process in a multi-method coating. In this article, these coating methods are categorized, and compared. By developing more advanced coating techniques and materials it is possible to enhance the qualities of protection in the future.
AbstractList A wide variety of coating methods and materials are available for different coating applications with a common purpose of protecting a part or structure exposed to mechanical or chemical damage. A benefit of this protective function is to decrease manufacturing cost since fabrication of new parts is not needed. Available coating materials include hard and stiff metallic alloys, ceramics, bio-glasses, polymers, and engineered plastic materials, giving designers a variety freedom of choices for durable protection. To date, numerous processes such as physical/chemical vapor deposition, micro-arc oxidation, sol–gel, thermal spraying, and electrodeposition processes have been introduced and investigated. Although each of these processes provides advantages, there are always drawbacks limiting their application. However, there are many solutions to overcome deficiencies of coating techniques by using the benefits of each process in a multi-method coating. In this article, these coating methods are categorized, and compared. By developing more advanced coating techniques and materials it is possible to enhance the qualities of protection in the future.
Author Fotovvati, Behzad
Namdari, Navid
Dehghanghadikolaei, Amir
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  orcidid: 0000-0003-4016-8900
  surname: Namdari
  fullname: Namdari, Navid
– sequence: 3
  givenname: Amir
  surname: Dehghanghadikolaei
  fullname: Dehghanghadikolaei, Amir
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SecondaryResourceType review_article
Snippet A wide variety of coating methods and materials are available for different coating applications with a common purpose of protecting a part or structure...
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StartPage 28
SubjectTerms Arc deposition
Arc spraying
Biocompatibility
Ceramic coatings
Chemical damage
Chemical vapor deposition
Copper
Corrosion resistance
Materials selection
Mechanical properties
Oxidation
Physical vapor deposition
Production costs
Protective coatings
Sol-gel processes
sol–gel
surface modification
Thermal energy
thermal spray
vapor deposition
Wear resistance
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Title On Coating Techniques for Surface Protection: A Review
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