Reprint

Recent Developments of Electrodeposition Coating

Edited by
June 2021
176 pages
  • ISBN978-3-0365-0736-1 (Hardback)
  • ISBN978-3-0365-0737-8 (PDF)

This is a Reprint of the Special Issue Recent Developments of Electrodeposition Coating that was published in

Chemistry & Materials Science
Engineering
Summary
This e-book presents a selection of papers focused on some novel aspects of electrodeposited coatings, in particular for medical applications. The biocoatings applied for surface modification of load-bearing implants are still being developed, especially for titanium implants, for which hundreds and thousands of possible technical solutions have been proposed using different techniques and materials. This book is a collection of papers that demonstrate appropriate attempts using various electrodeposition methods. The specific objectives are different, with several looking for improved bioactivity, another for antibacterial properties, and another for increased adhesion on the helix lines on dental implants. The e-book starts with a paper on the methodic development of electrodes for electrowinning. This is followed by paper on the real performance of the surface of dental implants, a subject not often addressed. The next paper focuses on electro-oxidation: a novel two-stage oxidation method, characteristic of the oxide layer on helix line of a model dental implant, and micro-arc oxidation of 3D printed titanium. The last paper focuses on coatings, describing the carbon nanotubes- (hydroxyapatite, chitosan), Eudragit-, and Fe-containing coatings. The e-book concludes with a review of all electrodeposition methods. It is a collection of papers describing novel results in electrodeposition biocoatings, which will be of interest for many scholars and researchers
Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
hardness; adhesion; hydroxyapatite; carbon nanotubes; titanium; biomedical applications; titanium; chitosan; Eudragit; electrophoretic deposition; nanoindentation; pH-sensitive coatings; wettability; titanium alloys; electrochemical oxidation; nanotubular oxide layers; microstructure; nanomechanical properties; corrosion resistance; wettability; antibacterial protection; cytotoxicity; titanium alloys; micro-arc oxidation; composite oxide coatings; microstructure; properties; coatings; electrocathodic deposition; electrophoretic deposition; plasma electrochemical oxidation; electro-spark deposition; electro-discharge deposition; bioactivity; antibacterial efficiency; mechanical strength; corrosion resistance; metal foam; surface area; electrowinning; Cu electrodeposition; EIS; double electric layer capacitance; dental implants; corrosion; ringer’s solution; artificial saliva; titanium oxide layers; inductively coupled plasma mass spectrometry (ICP-MS); magnesium alloy; micro-arc oxidation; iron; degradation resistance; cytocompatibility; nanotubular oxide; helix surfaces; dental implants; roughness; corrosion properties; n/a

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