Fe-Ni alloy coatings were electrodeposited on ferritic stainless steel(FSS)in solutions containing FeSO4 and NiSO4.The effects of pH,[Fe2 +]/[Ni 2+](molar ratio)of electroplating solutions and cathode current density ...Fe-Ni alloy coatings were electrodeposited on ferritic stainless steel(FSS)in solutions containing FeSO4 and NiSO4.The effects of pH,[Fe2 +]/[Ni 2+](molar ratio)of electroplating solutions and cathode current density on deposition rate and surface appearances of the coatings were investigated.The results indicated that the deposition rate of the coating in solution with [Fe 2+ ]/[Ni 2+ ]of 0.4 slightly increased with increasing pH from 2.5 to 3.5 under the current density of 5.5 mA/cm 2 ,and then the deposition rate of the coating in solution with pH 4.0 began to decrease.The deposition rate also slightly increased with pH up to 3.5 under higher cathode current densities of 13.5 and 27 mA/cm2.Under 13.5 mA/cm 2,however,the coating deposited in solution with pH 4 was prone to crack or flake.The deposition rate increased and the surface of coatings became less smooth with increasing cathode current density.The effect of the ratio of[Fe2 +]to[Ni 2+]on deposition rate was not obvious.With increasing the ratio of [Fe2 +]to[Ni 2+]in plating solution,the content of Fe in the coatings increased;while the Ni content in the coatings decreased with the increase in the ratio of[Fe 2+ ]to[Ni 2+ ].The deposited coating consisted of Fe-Ni alloy phase.展开更多
The effect of hydrogen inhibitor on partial current densities ofZn, Fe and differential capacitance of electrode/electrolyte interface, and adsorbing type of hydrogen inhibitor were studied by the methods of electroch...The effect of hydrogen inhibitor on partial current densities ofZn, Fe and differential capacitance of electrode/electrolyte interface, and adsorbing type of hydrogen inhibitor were studied by the methods of electrochemistry. The mechanism of current efficiency improvement were explained from the point of valence electron theory. The results indicate that the partial current density of Fe increases in addition of hydrogen inhibitor, which reaches the maximum of 0.14 A/dm^2 when current density is 0.2 A/din〈 Differential capacitance of electrode/electrolyte interface decreases obviously from 20.3μF/cm^2 to 7 μF/cm^2 rapidly with the concentration varying from 0 to 20 mL/L, because hydrogen inhibitor chemically adsorbs on active points of Fe electrode surface selectively. Element S in hydrogen inhibitor with negative electricity and strong capacity of offering electron shares isolated electrons with Fe. The adsorption of H atom is inhibited when adsorbing on active points of Fe electrode surface firstly, and then current efficiency of Zn-Fe alloy electroplating is improved accordingly.展开更多
Magnesium alloys covered with metal coating display excellent corrosion resistance,wear resistance,conductivity and electromagnetic shielding properties.The electroless plating Ni-P as bottom layer following the elect...Magnesium alloys covered with metal coating display excellent corrosion resistance,wear resistance,conductivity and electromagnetic shielding properties.The electroless plating Ni-P as bottom layer following the electroplating nickel as surface layer on AZ91D magnesium alloy was investigated.The coating surface morphology was observed with SEM and the structure was analyzed with XRD.Electrochemical tests and salt spray tests were carried out to study the corrosion resistance.The experimental results indicate that the dual coating is uniform,compact and pore-free.The adhesion strength between magnesium alloy substrate and electroless plating Ni-P bottom layer and electroplating nickel surface layer is perfect.The corrosion resistance of AZ91D magnesium alloy is greatly improved after being protected with the dual coating.展开更多
The current research processes of electroplating and electroless Ni-P alloy plating on magnesium alloys were reviewed. Theoretically,the reason for difficulties in electroplating and electroless plating on magnesium a...The current research processes of electroplating and electroless Ni-P alloy plating on magnesium alloys were reviewed. Theoretically,the reason for difficulties in electroplating and electroless plating on magnesium alloys was given.The zinc immersion, copper immersion,direct electroless Ni-P alloy plating and electroplating and electroless plating on magnesium alloys prepared by chemical conversion coating were presented in detail.Especially,the research development of magnesium alloy AZ91 and AZ31 was discussed briefly.Based on the analysis,the existing problems and future research directions were then given.展开更多
基金Project(12301014)supported by the National Undergraduate Innovation Program of China
文摘Fe-Ni alloy coatings were electrodeposited on ferritic stainless steel(FSS)in solutions containing FeSO4 and NiSO4.The effects of pH,[Fe2 +]/[Ni 2+](molar ratio)of electroplating solutions and cathode current density on deposition rate and surface appearances of the coatings were investigated.The results indicated that the deposition rate of the coating in solution with [Fe 2+ ]/[Ni 2+ ]of 0.4 slightly increased with increasing pH from 2.5 to 3.5 under the current density of 5.5 mA/cm 2 ,and then the deposition rate of the coating in solution with pH 4.0 began to decrease.The deposition rate also slightly increased with pH up to 3.5 under higher cathode current densities of 13.5 and 27 mA/cm2.Under 13.5 mA/cm 2,however,the coating deposited in solution with pH 4 was prone to crack or flake.The deposition rate increased and the surface of coatings became less smooth with increasing cathode current density.The effect of the ratio of[Fe2 +]to[Ni 2+]on deposition rate was not obvious.With increasing the ratio of [Fe2 +]to[Ni 2+]in plating solution,the content of Fe in the coatings increased;while the Ni content in the coatings decreased with the increase in the ratio of[Fe 2+ ]to[Ni 2+ ].The deposited coating consisted of Fe-Ni alloy phase.
基金Projects(50274073) supported by the National Natural Science Foundation of China
文摘The effect of hydrogen inhibitor on partial current densities ofZn, Fe and differential capacitance of electrode/electrolyte interface, and adsorbing type of hydrogen inhibitor were studied by the methods of electrochemistry. The mechanism of current efficiency improvement were explained from the point of valence electron theory. The results indicate that the partial current density of Fe increases in addition of hydrogen inhibitor, which reaches the maximum of 0.14 A/dm^2 when current density is 0.2 A/din〈 Differential capacitance of electrode/electrolyte interface decreases obviously from 20.3μF/cm^2 to 7 μF/cm^2 rapidly with the concentration varying from 0 to 20 mL/L, because hydrogen inhibitor chemically adsorbs on active points of Fe electrode surface selectively. Element S in hydrogen inhibitor with negative electricity and strong capacity of offering electron shares isolated electrons with Fe. The adsorption of H atom is inhibited when adsorbing on active points of Fe electrode surface firstly, and then current efficiency of Zn-Fe alloy electroplating is improved accordingly.
基金Project(2007CB613705)supported by the National Key Basic Research ProgramProject(2006BAE04B05-2)supported by the NationalKey Technology R&D Program of China
文摘Magnesium alloys covered with metal coating display excellent corrosion resistance,wear resistance,conductivity and electromagnetic shielding properties.The electroless plating Ni-P as bottom layer following the electroplating nickel as surface layer on AZ91D magnesium alloy was investigated.The coating surface morphology was observed with SEM and the structure was analyzed with XRD.Electrochemical tests and salt spray tests were carried out to study the corrosion resistance.The experimental results indicate that the dual coating is uniform,compact and pore-free.The adhesion strength between magnesium alloy substrate and electroless plating Ni-P bottom layer and electroplating nickel surface layer is perfect.The corrosion resistance of AZ91D magnesium alloy is greatly improved after being protected with the dual coating.
文摘The current research processes of electroplating and electroless Ni-P alloy plating on magnesium alloys were reviewed. Theoretically,the reason for difficulties in electroplating and electroless plating on magnesium alloys was given.The zinc immersion, copper immersion,direct electroless Ni-P alloy plating and electroplating and electroless plating on magnesium alloys prepared by chemical conversion coating were presented in detail.Especially,the research development of magnesium alloy AZ91 and AZ31 was discussed briefly.Based on the analysis,the existing problems and future research directions were then given.