Molecular dynamics study on the effect of Ni atoms on the crack arrest performance of Fe–Ni alloy

Abstract: Molecular dynamic simulations are applied to test the nickel's modification mechanism of Fe-Ni alloy. Mono displacement loading is applied to a perfect single crystal model, a single crystal model with vacancies, and a model with transgranular crack. Moreover, constant strain load is applied to the polycrystal model to test the Ni effect on intergranular crack initiation. The results elucidate that Ni atoms could decrease the free surface energy and the stacking fault energy simultaneously. However, Ni atoms h… Show more

“…In addition, Cr, Ni and other elements [15,16] played a significant role in inhibiting HE. For example, Yang et al [17] found that Ni atoms could decrease the free surface energy and the stacking fault energy simultaneously. The findings suggested that a low concentration of Ni might degrade the physical property of Fe-Ni alloy, and the increasing the Ni atomic concentration above specific critical values, e.g., 0.03 or 0.05, could enhance the fracture toughness.…”

Study on failure evolution of 15CrMo steel used for aviation kerosene hydrogenation unit

“…In addition, Cr, Ni and other elements [15,16] played a significant role in inhibiting HE. For example, Yang et al [17] found that Ni atoms could decrease the free surface energy and the stacking fault energy simultaneously. The findings suggested that a low concentration of Ni might degrade the physical property of Fe-Ni alloy, and the increasing the Ni atomic concentration above specific critical values, e.g., 0.03 or 0.05, could enhance the fracture toughness.…”

Study on failure evolution of 15CrMo steel used for aviation kerosene hydrogenation unit

Study of the nickel concentration effect on toughness and hydrogen embrittlement resistance of pipeline steel