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Effect of an upward magnetic field on nanosized sulfide precipitation in ultra-low carbon steel
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作者 Kang-jia Duan Ling Zhang +3 位作者 Xi-zhi Yuan Shan-shan Han Yu Liu Qing-song Huang 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2015年第7期714-720,共7页
An induction levitation melting (ILM) refining process is performed to remove most microsized inclusions in ultra-low carbon steel (UCS). Nanosized, spheroid shaped sulfide precipitates remain dispersed in the UCS... An induction levitation melting (ILM) refining process is performed to remove most microsized inclusions in ultra-low carbon steel (UCS). Nanosized, spheroid shaped sulfide precipitates remain dispersed in the UCS. During the ILM process, the UCS is molten and is rotated under an upward magnetic field. With the addition of Ti additives, the spinning molten steel under the upward magnetic field ejects particles because of resultant centrifugal, floating, and magnetic forces. Magnetic force plays a key role in removing sub-micrometer-sized particles, composed of porous aluminum titanate enwrapping alumina nuclei. Consequently, sulfide precipitates with sizes less than 50 nan remain dispersed in the steel matrix. These findings open a path to the fabrication of clean steel or steel bearing only a nanosized strengthen- ing phase. 展开更多
关键词 ultra-low carbon steel magnetic field sulfide precipitation induction levitation TITANIUM
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