Comparison of corrosion behaviors between SS304 and Ti substrate coated with (Ti,Zr)N thin films as Metal bipolar plate for unitized regenerative fuel cell

In this study, a (Ti,Zr)N coating consisting of nano-composite structure of the TiN and ZrN phases is deposited on SS304 and titanium substrates as the metal bipolar plate through the cathodic arc evaporation techniques. This improves the corrosion resistance of SS304 and Ti metal when used in a unitized regenerative fuel cell (URFC). The corrosion behaviors of these two substrates are compared. Scanning electron microscope, energy dispersive spectrometer, and X-ray diffractometer are used to characterize the microstructure, thickness, chemical composition, as well as crystalline and phase states of the deposited thin films. The potentiodynamic polarization of the (Ti, Zr) N coating is tested in a simulated URFC H-2 environment, i.e., 0.50 M H2SO4 with 3 ppm NaF solution purging with H-2 gas at 60 degrees C. Experimental results demonstrate that the (Ti,Zr)N coating improves the corrosion resistance of SS304 (about 215 times that of uncoated SS304) better than that of the Ti substrate (about 200 times that of uncoated Ti). The enhanced corrosion resistance is attributed to the nano-composite structure of TiN and ZrN, which has a dense and columnar microstructure that is impermeable to a corrosive medium. The coating of the (Ti, Zr)N layer has better corrosion resistance than the increased sheet resistance for both substrates. Therefore, the (Ti, Zr)N-SS304 and (Ti, Zr)N-Ti samples, specifically the (Ti, Zr)N-SS304 sample, are good candidates as the material for URFC H-2 side metal bipolar plate. (C) 2013 Elsevier B.V. All rights reserved.