Effect of Gl/GA Coating on the Hydrogen Embrittlement of 1180 MPa Grade Steel
摘要
The hydrogen embrittlement of 1180 MPa ultra-High Strength steel with GI coating and GA coating for automotive has been studied by electrochemical stripping, electrochemical hydrogen charging, slow strain rate tensile test and TDS analysis. The electrochemical stripping test is taken in 3.4 M NaCl +0.3 M ZnSO4 solution, and the GI-coated steel shows two plateau potential regions, which respectively corresponding to Zn phase and substrate, while the GA-coated steel shows four plateau potential regions, which attributed to the exposure to ζ phase, δ phase, Γ phase, and substrate, respectively. After removing the coating, the hydrogen diffusion coefficients of GI1180 and GA1180 are 8.92 * 10−7 cm2/s and 8.6 * 10−7 cm2/s, respectively, which are basically equivalent. Under slow strain rate tensile test at a hydrogen charging current density of 4 mA/cm2, the strength losses of GI1180 and GA1180 were 6.87% and 1.95%, respectively. After the slow tensile test, TDS was used to detect the hydrogen content at the fracture site, and the hydrogen content of GI1180 and GA1180 was 0.89 ppm and 1.1 ppm, respectively. This indicates that the GA coating has a more significant effect on hindering hydrogen diffusion, and both steel grades have good resistance to hydrogen embrittlement.