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7010610 
Journal Article 
Effect of dew point on hot-dip galvanizing behavior of a high-manganese TWIP steel for automotive application 
Ren, TD; Shi, Wen; Liu, R; Lin, Li; Yang, HG; Li, Lin; Shahzad, B; , 
2020 
Yes 
Journal of Iron and Steel Research International
ISSN: 1006-706X 
SPRINGER 
NEW YORK 
27 
10 
1200-1211 
WOS:000553747800001 
The effect of dew points (- 50, - 10 and + 10 degrees C) on the galvanizing properties of a high-manganese twinning-induced plasticity (TWIP) steel was studied. Scanning electron microscopy (SEM), glow discharge optical emission spectrometry (GDOES) and X-ray photoelectron spectroscopy (XPS) were used for microscopic observation and qualitative analysis of the interfacial layer between the steel surface and the zinc layer after hot-dip galvanizing. SEM analysis results show that three different morphologies of metallic oxides are formed on the interfacial layer under the different dew points. GDOES results show that Al is present in the molten zinc, reacting with Fe on the steel surface to form Fe2Al5, which can increase the galvanizing properties. XPS results show that the valence states of Mn in the interfacial alloy layer are Mn(2+)and Mn4+, and the valence states of Fe are Fe-0, Fe(2+)and Fe3+. The experimental results show that the hot-dip galvanizing performance is the best at - 10 degrees C and the formation of Mn and Fe intermetallic oxides has a bad effect on hot-dip galvanizing behavior of the high-manganese TWIP steel. The types of the formed surface oxides (MnO, Mn3O4, Mn2O3, FeO, and Fe2MnO4) on the surface of the steel sheet are confirmed. It can obtain the best hot-dip galvanizing performance of the high-manganese TWIP steel by controlling the dew point from - 10 to - 5 degrees C. 
High-manganese twinning-induced plasticity steel; Hot-dip galvanizing; Dew point; Glow discharge optical emission spectrometry; X-ray photoelectron spectroscopy; Surface oxide