Titlebook: Coatings for High-Temperature Environments; Anti-Corrosion and A Amirhossein Pakseresht,Kamalan Kirubaharan Amirtha Book 2024 The Editor(s)

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1612-1317 he field, this edited book features the most recent and up-to-date literature references for a broad readership consisting of academic and industrial professionals. It is suitable for graduate students as well 978-3-031-45536-0978-3-031-45534-6Series ISSN 1612-1317 Series E-ISSN 1868-1212

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Algebra in Science and Engineering,cing variables, properties, and failures of high-temperature erosion-resistant coatings are therefore highlighted in the current chapter. This could open up new opportunities for research into cutting-edge high-temperature erosive wear resistance coatings.

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Paul Drijvers,Aad Goddijn,Martin Kindtprecipitated by the diffusion of Nb and C and decreased the Laves content. The wear mechanism changed from abrasive wear to oxidation wear as temperature increased. The Co–Cr–Fe–Nb–Ni HEAs coatings exhibited superior performance of anti-oxidation and wear resistance compared to electroplated hard Cr

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Sunil Nair,Douglas Hsu,Leo Anthony Celinical and chemical properties of the boride coating are preserved at high temperatures (up to 1000?°C); the probability of the boride coating cracking or spalling at high temperature is negligible. This chapter reviews the various boriding methods as adopted for the formation of boride coating on hi

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Timss, Common Sense, and the Curriculumon systems. TEM is prone to oxygen corrosion and sublimation when used in a high-temperature environment. It lacks long-term stability, performance degradation, and repeatability loss in heating–cooling cycles and will further decrease its properties. This chapter summarizes various types of protect