Physical Model of Slag Foaming.
スポンサーリンク
概要
- 論文の詳細を見る
Physical model of slag foaming was developed by using results of cold and hot model experiments. The bubble size at the slag/metal interface, the void fraction of foam and the film life of a bubble at the top surface of slag were calculated. The governing factors of slag foaming have been clarified with this model. It was confirmed that the bubble size at the slag/metal interface is determined basically by the static balance between the buoyancy force and the adhesive force to the slag/metal interface. It was resulted that the slag/metal interfacial tension and the surface tension of metal also affect the foam height besides the surface tension and the viscosity of slag because they change the bubble size.
- The Iron and Steel Institute of Japanの論文
著者
-
Tokumitsu Naoki
Steelmaking Process Process Technology Laboratories Technical Development Bureau Nippon Steel Corpor
-
Ogawa Yuji
Steel Research Laboraorties Nippon Steel Corporation
-
Tokumitsu Naoki
Steelmaking Process, Process Technology Research Laboratories, Technical Development Bureau, Nippon Steel Corporation
-
Huin Didier
Physical Chemistry Department, IRSID
-
Gaye Henri
Physical Chemistry Department, IRSID
-
Ogawa Yuji
Steelmaking Process, Process Technology Research Laboratories, Technical Development Bureau, Nippon Steel Corporation
関連論文
- X-ray Fluoroscopic Observation of Bubble Characteristics in a Molten Iron Bath
- Characteristics of Jets from Top-blown Lance in Converter
- Physical Model of Slag Foaming.