Effect of Al and Zn addition on the active behavior of the high P pig iron-based composite anodes

Prasad NK(2022)High phosphorus pig iron as sacrificial anode in seawater J Mater Eng Perform 31 2690-2707

Pathak AS(2018)Possibility of high phosphorus pig iron as sacrificial anode J Mater Eng Perform 27 3335-3349

Kundu S(2021)Electrochemical behaviour of Al-5%Zn−0.1%Sn sacrificial anode in aggressive media: Influence of its alloying elements and the solidification structure On the novel approach of cathodic protection of mild steel in simulated concrete pore solution and concrete mortar using high phosphorus pig iron as sacrificial anodes J Mater Res Technol 14 582-608

Panchal P(1991)A proposed activation mechanism for Al anodes Corrosion 47 665-674

Mondal K(1984)The influence of Ti and Zr on electrochemical properties of aluminium sacrificial anodes Corrosion 40 366-371

Prasad NK(2006)Effect of alloying elements on electrochemical properties of magnesium-based sacrificial anodes Mater Sci Eng A 431 263-276

Kundu S(2000)Tuning of CeO Corrosion 56 380-388

Mondal K(2020)-MnO Mater Sci Eng B 261 114768-114770

Prasad NK(2008) nano composite in Al-Zn alloy matrix for effective activation Corros Sci 50 2232-2238

Pathak AS(2021)Development of nano-cerium oxide incorporated aluminum alloy sacrificial anode for marine applications Corros Sci 189 109616-109634

Prasad NK(2022)High phosphorus pig iron as sacrificial anode in seawater J Mater Eng Perform 31 2690-2707

Pathak AS(2018)Possibility of high phosphorus pig iron as sacrificial anode J Mater Eng Perform 27 3335-3349

Kundu S(2021)Electrochemical behaviour of Al-5%Zn−0.1%Sn sacrificial anode in aggressive media: Influence of its alloying elements and the solidification structure On the novel approach of cathodic protection of mild steel in simulated concrete pore solution and concrete mortar using high phosphorus pig iron as sacrificial anodes J Mater Res Technol 14 582-608

Panchal P(1991)A proposed activation mechanism for Al anodes Corrosion 47 665-674

Mondal K(1984)The influence of Ti and Zr on electrochemical properties of aluminium sacrificial anodes Corrosion 40 366-371

Prasad NK(2006)Effect of alloying elements on electrochemical properties of magnesium-based sacrificial anodes Mater Sci Eng A 431 263-276

Kundu S(2000)Tuning of CeO Corrosion 56 380-388

Mondal K(2020)-MnO Mater Sci Eng B 261 114768-114770

Prasad NK(2008) nano composite in Al-Zn alloy matrix for effective activation Corros Sci 50 2232-2238

Pathak AS(2021)Development of nano-cerium oxide incorporated aluminum alloy sacrificial anode for marine applications Corros Sci 189 109616-109634