The manuscript reports about the corrosion performance of a series of grey cast iron specimens including an increasing concentration of Aluminum as alloying element. An improved corrosion resistance for %Al >1%wt is demonstrated and a reasonable corrosion mechanism is proposed as well. Electrochemical techniques allow to calculate a particularly high corrosion potential (Ecorr) for the sample including 4%wt Al, equals to-572 mV vs. Saturated Calomel Electrode (SCE). The manuscript is aimed at demonstrating that the fine tuning of alloying elements in cast iron is a particularly effective method in order to improve its corrosion resistance, thus allowing the development of future disc-brake rotors with a prolonged operating life.
Bertasi, F., Dudzik, B., Mancini, A., Bandiera, M., Biondo, S., Bonfanti, A. (2020). Rust is not a must. Improvement of discs corrosion resistance by tuning of grey cast iron alloying elements and microstructure. In SAE International 38th Annual Brake Colloquium and Exhibition, BRAKE 2020. SAE International [10.4271/2020-01-1624].
Rust is not a must. Improvement of discs corrosion resistance by tuning of grey cast iron alloying elements and microstructure
Mancini A.;
2020
Abstract
The manuscript reports about the corrosion performance of a series of grey cast iron specimens including an increasing concentration of Aluminum as alloying element. An improved corrosion resistance for %Al >1%wt is demonstrated and a reasonable corrosion mechanism is proposed as well. Electrochemical techniques allow to calculate a particularly high corrosion potential (Ecorr) for the sample including 4%wt Al, equals to-572 mV vs. Saturated Calomel Electrode (SCE). The manuscript is aimed at demonstrating that the fine tuning of alloying elements in cast iron is a particularly effective method in order to improve its corrosion resistance, thus allowing the development of future disc-brake rotors with a prolonged operating life.
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