Surface Engineering of Light Alloys
Surface Engineering of Light Alloys
English[eng]
Mg alloy||corrosion protection||hydrothermal synthesis||coating||degradable implant||titanium||gallic acid||polyphenols||surface functionalization||metal implants||aluminum alloys||brazing||surface preparation||interface reactions||joining||microstructure||phase/composition in reaction layer||Ni–P coatings||Ni3P phase||Mg alloys||AZ91||heat treatment||microhardness||crystallite size||ion irradiation||dislocation||irradiation defect||microcrystal||antibacterial activity||bone growth||apatite formation||silver||strontium||calcium titanate||ion release||cytotoxicity||controlled release||biodegradable magnesium||dopamine||Impedance behavior||molecular dynamic simulation||aluminum oxide layers||nanostructure||tribological wear||surface morphology||thermo-chemical treatment||artificial saliva||lubricant||zirconia||titanium alloys||wear||n/a
English[eng]
Mg alloy||corrosion protection||hydrothermal synthesis||coating||degradable implant||titanium||gallic acid||polyphenols||surface functionalization||metal implants||aluminum alloys||brazing||surface preparation||interface reactions||joining||microstructure||phase/composition in reaction layer||Ni–P coatings||Ni3P phase||Mg alloys||AZ91||heat treatment||microhardness||crystallite size||ion irradiation||dislocation||irradiation defect||microcrystal||antibacterial activity||bone growth||apatite formation||silver||strontium||calcium titanate||ion release||cytotoxicity||controlled release||biodegradable magnesium||dopamine||Impedance behavior||molecular dynamic simulation||aluminum oxide layers||nanostructure||tribological wear||surface morphology||thermo-chemical treatment||artificial saliva||lubricant||zirconia||titanium alloys||wear||n/a