Advances in Thermal Spray Technology
Thermal spray technology has been widely adopted industrially to combat diverse forms of surface degradation caused by wear, corrosion, oxidation, high thermal load, etc. Nonetheless, improvements in coating quality are incessantly sought to further enhance durability and/or performance of component...
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Year of Publication: | 2020 |
Language: | English |
Physical Description: | 1 electronic resource (188 p.) |
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Joshi, Shrikant edt Advances in Thermal Spray Technology Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020 1 electronic resource (188 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Thermal spray technology has been widely adopted industrially to combat diverse forms of surface degradation caused by wear, corrosion, oxidation, high thermal load, etc. Nonetheless, improvements in coating quality are incessantly sought to further enhance durability and/or performance of components operating in increasingly aggressive environments. This has led to technology advancements on various fronts, spanning feedstock materials, process variants, torch designs, coating architectures, etc. These have also been complemented by developments in closely allied areas to accommodate novel substrate materials, explore post-treatments, investigate coating behaviour under varied harsh conditions and harness benefits of artificial intelligence/neural networking. All of the above, along with efforts to improve diagnostic tools and create reliable control systems, have been driven by the desire to achieve robust shop-floor thermal spray capabilities to consolidate existing applications and spur new ones. This book is a compilation of twelve exciting contributions made for the Special Issue on “Advances in Thermal Spray Technology”, and showcases some of the above developments that are currently attracting interest in the field. English History of engineering & technology bicssc carbon/carbon (C/C) composites ultra-high temperature ceramic (UHTC) vacuum plasma spray (VPS) ablation resistance thermal spraying high velocity oxy-fuel (HVOF) S-phase expanded austenite 316L stainless steel thermochemical treatment hardening gas nitriding axial feeding hybrid plasma spray coating bovine serum solution sliding wear indentation double-layered TBC gadolinium zirconate suspension plasma spray thermal cyclic fatigue burner rig test yttria stabilized zirconia titanium carbide chromium carbide wear cold spray neural network additive manufacturing model spray angle profile amorphous nanocrystalline wear resistant Vickers microhardness plasma spraying high-velocity suspension flame spraying copper silver NiCr 80/20 metal coatings polymer coatings flame spraying icephobicity ice adhesion wettability coating design corrosion-wear performance dense structure corrosion potential corrosion rate worn surface HVOF hardmetal dynamic impact test impact wear Al2O3-TiO2 system APS suspension spraying microstructure morphology phase composition n/a 3-03943-168-4 3-03943-169-2 Joshi, Shrikant oth |
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English |
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Joshi, Shrikant |
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Joshi, Shrikant |
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Advances in Thermal Spray Technology |
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Advances in Thermal Spray Technology |
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Advances in Thermal Spray Technology |
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Advances in Thermal Spray Technology |
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Advances in Thermal Spray Technology |
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Advances in Thermal Spray Technology |
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Advances in Thermal Spray Technology |
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advances in thermal spray technology |
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MDPI - Multidisciplinary Digital Publishing Institute |
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2020 |
physical |
1 electronic resource (188 p.) |
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3-03943-168-4 3-03943-169-2 |
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Not Illustrated |
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AT joshishrikant advancesinthermalspraytechnology |
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(CKB)5400000000042730 (oapen)https://directory.doabooks.org/handle/20.500.12854/69124 (EXLCZ)995400000000042730 |
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Advances in Thermal Spray Technology |
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