Behaviour of cavity formation and convection in FeOx-SiO2 melts under plasma arc

K. Matsumaru; H. Fukuyama; M. Susa; K. Nagata

doi:10.2355/isijinternational.39.649

Behaviour of cavity formation and convection in FeOx-SiO₂ melts under plasma arc

K. Matsumaru, H. Fukuyama, M. Susa, K. Nagata

Research output: Contribution to journal › Article › peer-review

Abstract

The behaviour of oxides melted by plasma arc has been studied. Oxides of FeOx and FeOx-SiO₂ were melted by argon plasma arc. A direct-current-transferred-type plasma generator was employed. Observations of the sample surface revealed that a cavity formed in the region where the plasma arc was directed and that surface flow was operative in the direction from the centre toward the edge of the melt. The depth of the cavity was governed by the balance between the hydrostatic pressure and the sum of the pressures caused by the arc and the argon gas flow. The main driving force of convection on the sample surface was the aerodynamic drag force. The temperature distribution was dependent on both the argon gas flow rate and the viscosity of the sample, because the heat from the plasma arc was mostly transported by convection on the sample surface.

Original language	English
Pages (from-to)	649-656
Number of pages	8
Journal	Isij International
Volume	39
Issue number	7
DOIs	https://doi.org/10.2355/isijinternational.39.649
Publication status	Published - 1999
Externally published	Yes

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

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title = "Behaviour of cavity formation and convection in FeOx-SiO2 melts under plasma arc",

abstract = "The behaviour of oxides melted by plasma arc has been studied. Oxides of FeOx and FeOx-SiO2 were melted by argon plasma arc. A direct-current-transferred-type plasma generator was employed. Observations of the sample surface revealed that a cavity formed in the region where the plasma arc was directed and that surface flow was operative in the direction from the centre toward the edge of the melt. The depth of the cavity was governed by the balance between the hydrostatic pressure and the sum of the pressures caused by the arc and the argon gas flow. The main driving force of convection on the sample surface was the aerodynamic drag force. The temperature distribution was dependent on both the argon gas flow rate and the viscosity of the sample, because the heat from the plasma arc was mostly transported by convection on the sample surface.",

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T1 - Behaviour of cavity formation and convection in FeOx-SiO2 melts under plasma arc

AU - Matsumaru, K.

AU - Fukuyama, H.

AU - Susa, M.

AU - Nagata, K.

PY - 1999

Y1 - 1999

N2 - The behaviour of oxides melted by plasma arc has been studied. Oxides of FeOx and FeOx-SiO2 were melted by argon plasma arc. A direct-current-transferred-type plasma generator was employed. Observations of the sample surface revealed that a cavity formed in the region where the plasma arc was directed and that surface flow was operative in the direction from the centre toward the edge of the melt. The depth of the cavity was governed by the balance between the hydrostatic pressure and the sum of the pressures caused by the arc and the argon gas flow. The main driving force of convection on the sample surface was the aerodynamic drag force. The temperature distribution was dependent on both the argon gas flow rate and the viscosity of the sample, because the heat from the plasma arc was mostly transported by convection on the sample surface.

AB - The behaviour of oxides melted by plasma arc has been studied. Oxides of FeOx and FeOx-SiO2 were melted by argon plasma arc. A direct-current-transferred-type plasma generator was employed. Observations of the sample surface revealed that a cavity formed in the region where the plasma arc was directed and that surface flow was operative in the direction from the centre toward the edge of the melt. The depth of the cavity was governed by the balance between the hydrostatic pressure and the sum of the pressures caused by the arc and the argon gas flow. The main driving force of convection on the sample surface was the aerodynamic drag force. The temperature distribution was dependent on both the argon gas flow rate and the viscosity of the sample, because the heat from the plasma arc was mostly transported by convection on the sample surface.

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