Surface Modification of Metals and Alloys
Recently, the scientific community has deemed surface modification to be necessary because the surface properties of new materials are usually inadequate in terms of wettability, adhesion, corrosion resistance, or even drag reduction. In order to modify solid surfaces such as metals and alloys, diff...
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Year of Publication: | 2021 |
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Physical Description: | 1 electronic resource (90 p.) |
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Llorca-Isern, Nuria edt Surface Modification of Metals and Alloys Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 1 electronic resource (90 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Recently, the scientific community has deemed surface modification to be necessary because the surface properties of new materials are usually inadequate in terms of wettability, adhesion, corrosion resistance, or even drag reduction. In order to modify solid surfaces such as metals and alloys, different treatments have been used to obtain a desired surface finish, including chemical vapor deposition, physical vapor deposition, chemical etching, electrodeposition, or the application of non-equilibrium gaseous media, especially gaseous plasma. These treatments promote changes in roughness, hydrophobicity, biocompatibility, or reactivity. Although such treatments have been studied extensively over the past decades and even commercialized, the exact mechanisms of the interaction between reactive gaseous species and solid materials are still inadequately understood. Moreover, for various reasons, it is difficult to find an alloy with a surface behavior that differs from that of the bulk. A frequent goal of surface modification is to obtain a greater or more specific resistance to extreme environments, including resistance to corrosion and wear; higher mechanical or fatigue resistance; hydrophobicity; oleophilicity; or thermal (for low or high temperature exposure), magnetic, electrical, or specific optic or light exposure behavior. Another objective is to increase biocompatibility, prevent (bio)fouling, or both. In order to achieve and improve these properties in metals and alloys, the strategy of surface modification must be applied on the basis of direct action on the metal or the incorporation of a coating that will provide these properties or functionalize its surface to meet complex requirements. English Research & information: general bicssc non-fluorinated superhydrophobic water-harvesting fatty acid robust durable fluoropolyurethane zinc substrate Cu2+-assisted etching superhydrophobic/hydrophilic drag reduction plasma electrolytic oxidation PEO coatings steel zinc-aluminized corrosion roughness incidence angle additive manufacturing L-PBF INCONEL718 thermal spray HVOF HVAF WC-based coatings cermet materials wear resistance 3-0365-1010-9 3-0365-1011-7 Rius-Ayra, Oriol edt Llorca-Isern, Nuria oth Rius-Ayra, Oriol oth |
language |
English |
format |
eBook |
author2 |
Rius-Ayra, Oriol Llorca-Isern, Nuria Rius-Ayra, Oriol |
author_facet |
Rius-Ayra, Oriol Llorca-Isern, Nuria Rius-Ayra, Oriol |
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n l i nli o r a ora |
author2_role |
HerausgeberIn Sonstige Sonstige |
title |
Surface Modification of Metals and Alloys |
spellingShingle |
Surface Modification of Metals and Alloys |
title_full |
Surface Modification of Metals and Alloys |
title_fullStr |
Surface Modification of Metals and Alloys |
title_full_unstemmed |
Surface Modification of Metals and Alloys |
title_auth |
Surface Modification of Metals and Alloys |
title_new |
Surface Modification of Metals and Alloys |
title_sort |
surface modification of metals and alloys |
publisher |
MDPI - Multidisciplinary Digital Publishing Institute |
publishDate |
2021 |
physical |
1 electronic resource (90 p.) |
isbn |
3-0365-1010-9 3-0365-1011-7 |
illustrated |
Not Illustrated |
work_keys_str_mv |
AT llorcaisernnuria surfacemodificationofmetalsandalloys AT riusayraoriol surfacemodificationofmetalsandalloys |
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is_hierarchy_title |
Surface Modification of Metals and Alloys |
author2_original_writing_str_mv |
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