This study mainly focused on the electrochemical pitting corrosion behavior of the newly developed high entropy alloy Al(subscript 0.1)Co(subscript 1.5)CrFeNi(subscript 1.5)Ti(subscript 0.5)Mo(subscript 0.1). In the experiment, the roles of the Al and Mo content in the high entropy alloy on the corrosion were evaluated and compared with type 316 stainless steel.The result shows that high entropy Al(subscript 0.1)-Mo(subscript 0.1) has a better corrosion resistance than type 316 stainless steel in chloride salt solution. As comparing for the high entropy alloy itself. Al and high Mo content has better pitting corrosion resirtain and can be arranged in the following: Al(subscript 0.1)-Mo(subscript 0.2)＞Al(subscript 0.1)-Mo(subscript 0.1)＞Al(subscript 0.2)-Mo(subscript 0.1).The critical pitting temperature (CPT) of the Al(subscript 0.1)-Mo(subscript 0.1) in NH(subscript 4)Cl solution decreases as the chloride salt concentration increases.The metallography of the sample alloy exhibits a typical dendritic cast structure where pitting occurs effen the specimen reaches the CPT. Once the CPT being surpassed, the pitting situation of the high entropy alloy tends to be serious, accounting for the varing alloy composition in the dencritic regions.