In this study, we investigate the causes of successive failures of 5456-H116 aluminum alloy by a series or research including appearance examinations, material composition analysis, micro-hardness test, tensile test, metallographical and micrographical analysis on fractured surfaces, electrochemical measurements, and Nitric Acid Mass Loss Test (NAMLT). The results indicate that the continuous network of β-phase precipitates at the grain boundaries lead to intergranular corrosion (lGC), stress corrosion cracking (SCC), and exfoliation on the internal surfaces which propagates along the rolled direction of alloys. In addition, the sensitization resulted from the β-phase precipitates also cause the decrease of their corrosion potential and strength. From the fracture morphology analysis, it is discovered that the fracture sections are cleavage and quasi-cleavage types. We recommend that our finding can serve as a reference for manufacturers regarding the construction and maintenance of aluminum alloy vessels.