Inclusion Particle Growth during Solidification of Stainless Steel
スポンサーリンク
概要
- 論文の詳細を見る
Inclusion particles in stainless steel were investigated in continuously cast slabs in a full scale caster and ingots cast in several kinds of molds under laboratory conditions. Under such conditions particle size near slab surfaces was seen to be smaller. However, it was increasing with increasing depth going into the slab interior. In order to understand the mechanism of inclusion particle growth we applied four different mathematical models to predict the size distribution of particles. Of the four, the Ostwald ripening model, usually only applied to aqueous colloid phenomena, provided the best correlation with experimental results. This suggests that particles formed during solidification grow by "diffusion coalescence" due to the difference in solubility of neighboring particles which in turn is dependent on particle size.
- 社団法人 日本鉄鋼協会の論文
- 2001-03-15
著者
-
NAKADA Masayuki
Materials and Processing Research Center, NKK Corporation
-
SUZUKI Mikio
Materials and Processing Research Center, NKK
-
Yamaguchi Ryuji
Engineering Research Center Nkk
-
MURAKAMI Katsuhiko
NKK Techno-Service Co.
-
Nakada Masayuki
Materials And Processing Research Center Nkk Corporation
-
Nakada Masayuki
Materials And Processing Reserach Center Nkk
-
Suzuki Mikio
Materials And Processing Research Center Nkk
-
NAKADA Masayuki
Material & Processing Research Center, NKK
関連論文
- Reduction of Macrosegregation by Applying a DC Magnetic Field at the Final Stage of Solidification
- Prediction of tensile fatigue life under temperature environment for unidirectional CFRP
- Prediction of Fatigue Life for CFRP/Metal Bolted Joint under Temperature Conditions
- Applicability of Time-Temperature-Water Absorption Superposition Principle for Flexural Strength of CFRP Laminates
- Time and Temperature Dependence on Flexural Strength of Heat-resistant CFRP Laminates
- 615 Prediction of Fatigue Life for CFRP/Metal Bolted Joint under Temperature Conditions
- 231 Applicability of Time-Temperature-Water Absorption Superposition Principle for Flexural Strength of CFRP Laminates
- 222 Time and Temperature Dependence of Flexural Strength of CFRP Laminates Using Heat-Resistant Resin
- Time and Temperature Dependence of Tensile Behavior of Unidirectional CFRP(Composite 3)
- GS(5)-23(GSW0189) Time-Temperature Dependent Flexural Behavior of Honeycomb Sandwich Composites
- Time-Temperature Dependent Compressive Behavior of GFRP/Honeycomb-Cored Sandwich Panel
- Oxidation of Molten Steel by the Air Permeated through a Refractory Tube
- Influence of Carbon Content on Solidifying Shell Growth of Carbon Steels at the Initial Stage of Solidification
- The Steel Flow Control System in Caster Mold by Traveling Magnetic Field
- 225 Time and Temperature Dependence on Flexural Fracture Behavior of Honeycomb Core Sandwich Panels
- Inclusion Particle Growth during Solidification of Stainless Steel
- Initial Solidification Control of Continuous Casting Using Electromagnetic Oscillation Method
- Perspectives of Research on High-speed Conventional Slab Continuous Casting of Carbon Steels