Issue 48

X.-g. Huang et alii, Frattura ed Integrità Strutturale, 48 (2019) 48 1 -490; DOI: 10.3221/IGF-ESIS.48.46 484 crack. Fig. 4 (c) is about the crack propagation zone and there exist a series of irregular fatigue crack striations. But the fracture surface is almost covered a layer of corrosion product for the corrosion process. Figure 4: Fracture morphology (a. overall appearance; b. crack nucleation zone; c. crack propagation zone). D URABILITY TECHNOLOGY Thermal spraying of Zinc and Cr coating hrough the above analysis, it is found that the corrosion environment has a significant effect on the fatigue life of the structure. Therefore, anti-corrosion treatment always serves as an effective way to prolong the corrosion fatigue life. There are several ways to control corrosion commonly used in engineering, such as reasonable design of engineering structures, selection of anti-corrosion materials, change of corrosion environment, use of corrosion- resistant coatings, electrochemical protection, and substitution of metal structures with non-metallic structures with better corrosion resistance. Compared with the above methods, for AH 32 steel in marine environment, the feasible methods are electrochemical protection by surface coating of cathodic materials. Here, to ensure adhesion between coating and substrate, arc spraying of Zn and Cr coatings are adopted respectively to evaluate their effects on corrosion fatigue. Figure 5: Cross-section microstructures of coated specimens (a. Zn coating; b. Cr coating). a Crack nucleates from corrosion pits Crack propagation striations b a b c T