Ceramic Films and Coatings: Properties and Applications

doi:10.3390/books978-3-7258-1028-4

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Ceramic Films and Coatings: Properties and Applications

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May 2024

364 pages

ISBN978-3-7258-1027-7 (Hardback)
ISBN978-3-7258-1028-4 (PDF)

https://doi.org/10.3390/books978-3-7258-1028-4

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This book is a reprint of the Special Issue Ceramic Films and Coatings: Properties and Applications that was published in

Chemistry & Materials Science

Engineering

Summary

Various technologies have been developed for ceramic films and coatings, since they play an important role in the field of materials science. Compared to bulk ceramics, the preparation of ceramic film is certainly not a tedious process, as it includes ball milling, sieving, forming, pre-sintering, and high-temperature sintering. Additionally, it is possible to manufacture ceramic film with various shapes to meet industrial and civil demands. Recently, functional ceramic films and coatings used for lighting, anti-counterfeiting, corrosion prevention, wear resistance, and so on, have become a hot research topic. However, the creation of high-performance films and coatings still remains a challenge because the preparation technique, as well as their composition, microstructure, and compactness, significantly affect their properties and final applications. This Special Issue contains 25 papers, mainly introducing surface coatings, ceramics, photoluminescence, corrosion prevention, and wear resistance. This issue contains outstanding achievements in this field, which will definitely promote the future development of ceramic films and coatings technology.

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Keywords

Y₄O(OH)₉NO₃; Eu³⁺; eroding; rare earth compounds; microcrystals; YVO₄ film; layered yttrium hydroxide film; sacrificial precursor; anion exchange; photoluminescence; WC-17Co coating; high-velocity oxygen-fuel; warm spray; cold spray; microstructure; microhardness; fracture toughness; abrasive wear; Y₂O₃; ZrO₂; transparent ceramics; colloidal processing; nanopowders; Yb:YAG; transparent ceramics; vacuum sintering; anti-defects; afterglow; bandgap; persistent luminescence; ZnGa₂O₄; Cr³⁺; microarc oxidation; TC4 alloy; Si₃N₄/TaC particles; porosity; tribological property; electrochemical corrosion; MnO-Co@C nanospheres; yolk core-shell; microwave absorption; Gd₂O₃-MgO; core–shell; urea precipitation; nanocomposite; homogenous phase domain distribution; CoFe₂O₄/SWCNTs composites; microwave absorption; necklace-like structure; double loss mechanism; impedance matching; magnesium alloy; polyaniline; graphene oxide; corrosion protection; transparent ceramics; gadolinium aluminate; ceramic film; layered rare-earth hydroxide; WC-Co; cemented carbide; eta phase; Mo; TiN coatings; nitrogen flux ratio; microstructure; tribological properties; WC-Co; Fe; eta phase; grain growth; hardness; toughness; laser cladding; IN718 nickel-based superalloy; tungsten carbide; ultrasonic; acoustic cavitation; glass-ceramics; carbon steel; protective coating; structure; properties; silicon carbide; coatings; deposition; high-entropy alloys; gas permeability; thermal oxidation; thermal shock stability; Si₃N₄; ceramic cutting tool; hot-pressing sintering; TiC_0.7N_0.3; self-toughening; chemical vapor deposition; Al₂O₃; wear-resistant coatings; tungsten carbide cutting inserts; cutting performance; CrSiN coating; structure; thickness; mechanical property; residual stress; wear resistance; SrA1₂O₄:Eu²⁺,Dy³⁺; luminescent coating; afterglow; smart highway; solid lubricant coating; titanium nitride; lead; nanostructured coating; composite coating; tribological testing; friction coefficient; stepwise heating; microencapsulation; E-51 epoxy resin; self-healing; corrosion resistance; AZ91D magnesium alloy; phosphate conversion coating; magnesium alloy; strong oxidant; corrosion resistance; electrical conductivity; n/a