Effect of additional Si and Cu on strength and corrosion resistance of sacrificial anode fin stock for automotive heat exchangers

Abstract: To investigate the effects of Si and Cu on strength and corrosion rate of sacrificial anode fin stock of Al-1.5%Mn-0.2%Fe-1.5%Zn alloy for automotive heat exchangers, tensile test and SWAAT have been carried out. Strength increased with Si and Cu addition. Corrosion rate did not increase with Si addition in spite of increase of a-AlMnSi compound density, because the compounds did not work as effective cathode in the alloy. On the other hand, corrosion rate increased with Cu addition. This was explained in the … Show more

“…Acidified Synthetic Sea Water (SWAAT) testing is the most common way in the industry to measure the corrosion resistance of materials intended for heat exchanger applications [36, 37]. This accelerated corrosion testing was selected in order to establish a benchmarking for comparing high-pH corrosion vs. standard acidic environment corrosion behaviour.…”

Corrosion on high-frequency welded Al–1.1Mn–0.5Cu–0.1Ti micro-fin tubes externally cladded with Al–1.2Zn used for high-performance heat transfer applications

“…Acidified Synthetic Sea Water (SWAAT) testing is the most common way in the industry to measure the corrosion resistance of materials intended for heat exchanger applications [36, 37]. This accelerated corrosion testing was selected in order to establish a benchmarking for comparing high-pH corrosion vs. standard acidic environment corrosion behaviour.…”

Corrosion on high-frequency welded Al–1.1Mn–0.5Cu–0.1Ti micro-fin tubes externally cladded with Al–1.2Zn used for high-performance heat transfer applications

Influence of material related parameters in Sea Water Acidified Accelerated Test, reliability analysis and electrochemical evaluation of the test for aluminum brazing sheet

Corrosion Behavior of Alloy A3003 After Brazing in HCl, CH₃COOH, and Mixed Solutions