December 21, 2024

Malihe Omrani

Academic Rank: Assistant professor
Address:
Degree: Ph.D in Nuclear Engineering
Phone: 077
Faculty: Persian Gulf Research Institue

Research

Title Enhanced electrical conductivity of two layers AlN–TiN coating on SS316L as bipolar plate using plasma focus device
Type Article
Keywords
Bipolar plate AlNeTiN coating Plasma focus Electrical conductivity SS316L
Journal INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
DOI https://doi.org/10.1016/j.ijhydene.2016.01.081
Researchers Malihe Omrani (First researcher) , Mohammad Saeed Moti Birjandi (Third researcher)

Abstract

Two layers of AlNeTiN coating were deposited onto SS316L as PEM bipolar plate using plasma focus device for 5, 10 and 20 shots number. The XRD patterns of all coated samples reveal formation of TiN, Ti2N and AlTi3N crystallite phases on the surface. Using the Scherrer formula the crystallite size of the coating layer is estimated about 20e40 nm. Thickness of the two layers coating obtained from cross sectional SEM of the samples is in the range of 5e15 mm. Through the potentiostatic test considerable decrease of the current density of the 20 shots coated samples is achieved. The ICR of the samples reduced as follows: 20 shots < 10 shots < 5 shots < bare sample which confirms that the electrical conductivity of the bipolar plate is increased due to the formation of AlN and TiN coating. SEM morphology of all samples before and after potentiostatic tests shows that the coated samples are exposed to less corrosion compare with the bare sample. These results are in good agreement with electrochemical tests and the 20 shots sample has the lowest corrosion.