Effects of Manganese on Deformation of Oxide Scale on Low-carbon Steel Sheet during Hot Rolling

Abstract

In hot rolling process of low carbon steel sheets, oxide scale formed on the sheets may result in surface defects on the rolled products. The major phase of the scale is wustite FeO, which shows sufficient plasticity to follow the sheet deformation only at elevated temperature. However, thick scale is cracked, fragmented and indented to the sheets by the rolling even at elevated temperature because scale surface is instantly cooled by cold rolls to brittle temperature. Therefore, thick scale should be removed by descalers just before the rolling. It is reported that manganese decreases the eutectoid temperature between ductile wustite and brittle magnetite. Therefore, manganese may have a positive effect to widen wustite window to lower temperature and to suppress surface defects. In this study, 0mass% and 2mass% manganese bearing steel sheets with controlled scale on surface were hot rolled in a laboratory. The sheets were reduced 30% in thickness by unlubricated rolling at temperature between 1173 K and 1373 K. Scanning electron microscopy on longitudinal section showed that manganese decreases crack depth and increases spacing between scales indented to the steel. It is concluded manganese makes the scale on steel more ductile and suppresses surface defects.