Journal ArticleDOI
Behavior of nonmetallic inclusions in front of the solid-liquid interface in low-carbon steels
TLDR
In this article, the velocity of the advancing interface first increased while approaching the particle, but became stagnant during engulfment and increased again after that, and it was concluded that the flow was induced by the local difference in temperature and oxygen content in front of the interface, particularly in the case of a higher oxygen content.Abstract:
The present study is concerned with the interaction phenomena of nonmetallic inclusions in front of a moving solid-liquid interface. The in situ observation was done in a high-temperature experiment by using a laser microscope. Alumina inclusions in an aluminum-killed steel with low oxygen content exhibited the well-known clustering behavior. The velocity of the advancing interface first increased while approaching the particle, but became stagnant during engulfment and increased again after that. Alumina-magnesia complex inclusions in a magnesium-added steel with high oxygen content were very finely dispersed in the molten pool. These inclusions escaped from the advancing interface during solidification, but gathered again at the retreating interface during remelting. The tiny inclusions were thought to behave just as tracer particles of a local flow. The velocity of particles was measured on a video image, and the significant acceleration or deceleration was found near the interface. It was concluded that the flow was induced by the Marangoni effect due to the local difference in temperature and oxygen content in front of the interface, particularly in the case of a higher oxygen content. However, the flow was weak in the case of a low oxygen content.read more
Citations
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Journal ArticleDOI
Behavior of alumina-magnesia complex inclusions and magnesia inclusions on the surface of molten low-carbon steels
TL;DR: In this paper, a confocal scanning laser microscope was used to carry out the experiment of in-situ observation of the two types of inclusion on the molten pool and the attractive force between a pair of inclusions, for both cases, was found to be approximately 1O−17 to 10−16 N.
Journal ArticleDOI
Inclusion flotation-driven channel segregation in solidifying steels
Dianzhong Li,Xing-Qiu Chen,Paixian Fu,Xiaoping Ma,Hongwei Liu,Yun Chen,Yanfei Cao,Yikun Luan,Yiyi Li +8 more
TL;DR: The mystery of oxygen in steels is uncovered, the classical macro-segregation theory is extended, a significant technological breakthrough to control macrosegregation is highlighted and a new force of inclusion flotation is discovered that drives the occurrence of channel segregation.
Journal ArticleDOI
Marangoni flow at the gas/melt interface of steel
Hongbin Yin,Toshihiko Emi +1 more
TL;DR: In this article, the direction and velocity of surface flow of steel melt in the vicinity of the solid/melt (S/M) interface were determined by direct observation with a scanning laser microscope.
Journal ArticleDOI
Solidification and Particle Entrapment during Continuous Casting of Steel
TL;DR: In this paper, the fluid flow dynamics in the steel melt and mushy zone, heat transfer and solidification of the steel shell, as well as the motion and entrapment of inclusion particles during the casting process were investigated using computational models.
Journal ArticleDOI
In-situ observation of the precipitation of manganese sulfide in low-carbon magnesium-killed steel
TL;DR: In this paper, the in-situ observation of MnS precipitation was made on cooling using a confocal laser microscope, and it was found that two types of precipitates appeared at the different temperatures.
References
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Journal ArticleDOI
Interaction Between Particles and a Solid‐Liquid Interface
TL;DR: In this paper, the interaction between particles and an advancing solid-liquid interface has been investigated both experimentally and theoretically, and a theory has been developed, based on the assumption that a very short-range repulsion exists between the particle and the solid.
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An analytical model for the interaction between an insoluble particle and an advancing solid/liquid interface
TL;DR: In this paper, a dynamic mathematical model was developed to describe the interaction of an insoluble particle with an advancing solid-liquid interface and showed that this interaction is essentially non-steady state and that steady state eventually occurs only when solidification is conducted at sub-critical velocities.
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Lateral capillary forces between floating submillimeter particles
TL;DR: In this article, a procedure for calculating the energy and force of capillary interaction between two floating spherical particles of submillimeter size attached to a liquid-fluid interface is proposed on the basis of a general expression for the grand thermodynamic potential of the system.
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"In-situ"Observation of Collision, Agglomeration and Cluster Formation of Alumina Inclusion Particles on Steel Melts
TL;DR: In this paper, a long-range strong attraction between alumina and alumina-rich solid inclusion particles, and detailed sequence of the collision, agglomeration and formation of alumina clusters have been observed first time "in-situ" on molten steel surface by using a confocal scanning laser microscope combined with an infrared image furnace.
Journal ArticleDOI
Solid-state nucleation of acicular ferrite on minerals added to molten steel
TL;DR: A technique has been developed for making samples of steel with controlled additions of powdered mineral phases as discussed by the authors, which has been studied from the point of view of the acicular ferrite microstructure, which forms when ferrite plates nucleate heterogeneously on nonmetallic inclusions.