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Science and Technology of Thermal Barrier Coatings

Science and Technology of Thermal Barrier Coatings

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TBC materials in the hot components of a gas turbine are exposed to extremely harsh environments. Therefore, the evaluation of various environmental factors in applying new TBCs is essential. Understanding the mechanisms for degradation which occur in comprehensive environments plays an important role in preventing it and improving the lifetime performance. The development of novel coating techniques can also have a significant impact on lifetime performance as they can alter the microstructure of the coating and alter the various properties resulting from it. This Special Issue presents an original research paper that reports the development of novel TBCs, particularly the application of advanced deposition techniques and novel materials.

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Keywords

  • ANNs
  • BaLa2Ti3O10
  • bond coat species
  • building energy
  • CMAS
  • CoNiCrAlY
  • corrosion mechanisms
  • Crack growth
  • crack healing
  • cyclic thermal exposure
  • cyclic thermal fatigue
  • degradation
  • detonation gun (D-gun)
  • dry sliding wear
  • electron beam-physical vapor deposition
  • Encapsulation
  • failure
  • gas turbine blade
  • gas turbine lifetime
  • healing agent
  • high mechanical fatigue
  • high temperature oxidation
  • high temperature wear behavior
  • History of engineering & technology
  • hot gas path components
  • hydrogenated amorphous silicon films
  • initial crack length
  • internal covering
  • luminescence
  • molten salt corrosion
  • passive methods
  • plasma spraying
  • plasma spray–physical vapor deposition
  • SrZrO3
  • super-low friction
  • supersonic plasma spraying (SSPS)
  • TBC
  • Technology, engineering, agriculture
  • Technology: general issues
  • thermal barrier coating
  • thermal barrier coating (TBC)
  • thermal barrier coatings
  • thermal durability
  • Thermal stability

Links

DOI: 10.3390/books978-3-0365-0319-6

Editions

edition cover
Contributors: Yeon-Gil Jung,
2 ebooks
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Published: 2021
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