A Hidrodynamical Analysis of the Molten Steel Flow in the Continuous Casting Mold

Imamura, Akira; Kusano, Akihiko; Moritama, Naonori

doi:10.2355/tetsutohagane1955.78.3_439

Cited by 12 publications

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“…Many papers have been published on the countermeasures for prevention of the mold powder entrapment. Some researchers [45][46][47][48][49][50][51][52] investigated the phenomena of mold powder entrapment with a water model experiment. The water model experiment can show that the mold powder begins to be suspended into water pool caused by two mechanisms as shown in Figs.…”

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confidence: 99%

Perspectives of Research on High-speed Conventional Slab Continuous Casting of Carbon Steels.

Suzuki

Nakada

2001

ISIJ International

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Two decades ago the casting speed of the conventional slab continuous caster was increased stepwise to a level over 2 m/min. Henceforth, the casting speed has been remained a similar level. In this review the reasons for constraining the casting speed are discussed. As a result the constraints of the high-speed casting are thought mold powder entrapment and longitudinal facial crack occurring in high-speed casting.Some measures to prevent the mold powder entrapment and the longitudinal facial crack are discussed. Resultantly the research issues we should develop are considered such as prevention of alumina built-up in a submerged entry nozzle, control of fluid flow in a mold and control of heat transfer through mold powder film interved between a solidifying shell and a mold wall. They are most important to realize the high-speed continuous casting of conventional slab.KEY WORDS: high-speed casting; conventional slab; mold powder entrapment; longitudinal facial crack; upper limit of casting speed.order to realize the ideal process, i.e., full hot direct rolling, technologies for more stability of the casting practice and the production of higher slab quality should be realized.The casting speed of the conventional slab caster with an oscillating mold has been remained a 2 m/min level because such higher-speed casting deteriorates slab quality. Therefore, we will investigate what the factors for restraining the casting speed of the conventional slab caster are. Present State of High-speed Continuous Casting of Steel Slab Trend of Casting Speed of Conventional SlabContinuous Caster We will survey the present state of high-speed casting in a conventional slab caster. The trend of the casting speed is shown in Fig. 3 10) for the conventional slab casters in Japanese steel companies. The main specifications and the casting speed are listed in Table 1 of the conventional slab casters. [11][12][13][14][15][16][17][18] The casting speed has been stepwise increased and attained approximately twice in two decades. Fifteen years ago a synchronized operation began between a continuous caster and a hot strip mill, i.e., hot direct rolling. 19) Since the hot direct rolling operation needs the productivity of the caster to be met to that of the hot strip mill, the casting speed should be increased. Heat Transfer and Lubrication Phenomena inContinuous Casting Mold at High-speed Casting The infiltration of liquid powder into a shell/mold gap is a very important process in continuous casting since it is necessary to ensure both good lubrication and uniform heat transfer between a shell and a mold. Failure to provide these conditions could result in the creation of surface defects and sticker breakouts.We will survey the heat transfer and the lubrication phenomena in a mold at a casting speed over 2 m/min of slab casters.Local heat flux in casting of low carbon Al killed steel is shown in Fig. 4 20) against the remaining time in a mold. The local heat flux during the conventional slab casting given by Suzuki et al.,21) and Grilles...

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confidence: 99%

Perspectives of Research on High-speed Conventional Slab Continuous Casting of Carbon Steels.

Suzuki

Nakada

2001

ISIJ International

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“…。また、鋳型への注入流を安定的に制御することが、高品質鋼材の製造に不可欠となることから、耐火物材質の開発についても、数多くの取組みがなされてきた [2], [3] 。直近では、電気化学的に溶鋼と耐火物間の反応を制御し、ノズル詰まりを防止する技術も報告されている [4] 。ノズル詰まりの機構については、溶鋼と耐火物間の反応により溶鋼／耐火物界面で生成される界面張力勾配によって粘性底層内に流入した介在物がノズル内壁面へ輸送され付着する機構が提案されている [5], [6], [7] 。しかしながら、アルミ脱酸時に生成する代表的な介在物であるアルミナと溶鋼が濡れにくいことは古くから知られている [8] 。注湯操作においては、耐火物製ストッパーやスライディングノズルによって開口面積を調整し制御する、すなわち、流路断面積の急激な変化を伴うことになる。その際，濡れ性の悪い耐火物製ノズルで囲まれた流路を溶鋼が流れることになるが、溶鋼中に含まれる濡れ性の悪い介在物がどのように振舞うのか、濡れ性の観点での検討が待たれる。溶鋼中の介在物挙動を検討するために様々なモデル実験や解析モデルが考案され、混相流体に関する理解が進んだ [9] 。潘らは矩形容器内に表面の接触角が異なる粒子を分散させ、矩形容器底部から空気を吹き込み、粒子と気泡の付着挙動をハイスピードビデオで観察した [10] 。その結果、接触角が大の粒子は気泡と接触すると速やかに気泡内に取り込まれることを明らかにしている。松澤らは二次精錬工程での吹き込まれたフラックス粒子の濡れ性が溶鋼中での滞留挙動に及ぼす影響に着目した水モデル実験を行った [11] 。具体的には粒子表面に親水剤あるいは撥水剤を塗布し表面の接触角を変化させた粒子を水中に吹き付けた際の粒子の侵入挙動をハイスピードビデオカメラで観察した。その結果、接触角の違いにより随伴される気泡が変化し粒子の滞留挙動が変化することを明らかにしている。一方、注入流を模擬する水モデル実験については、今村らがノズル内での二次メニスカスの存在を指摘した [12] 。また、ノズル形状の検討だけでなく、注入流を安定的に制御することを目的として旋回流をノズル内で形成する方法等 [13] 、様々な注入流制御法が検討されている。しかしながら、濡れ性の影響についての水モデル実験 3 は極めて少ない。前田らがスライディングノズル方式を模擬した水モデル実験を行い、撥水剤を塗布した場合、開度によって流量特性が変化することを報告している [14], [15], [16] 。ただ、濡れ性を変化させ模擬介在物の挙動についての検討は見当たらない。そこで本研究では注入ノズル内での介在物の挙動を、水モデル実験装置を用いて濡れ性の観点から検討した。その際、ノズル外面から観察するのではなく、注入量を制御するストッパー中心に内視鏡を設置し、直接水中の模擬介在物を観察することとした。介在物を模擬するトレーサーの粒径や接触角、加えて、ノズル内面、ストッパー表面の接触角を親水剤、撥水剤を塗布することで変化させ、介在物挙動について調査した [17], [18], [19] 。 2. 水モデル実験られている [23] 。さらに、笹井らは溶鋼中のアルミナ粒子間に表面張力に基づく凝集力 F a が作用することを報告している [24], [25], [26] 。以下、本実験条件で前述した力のオーダー評価を行う。 Fig.…”

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Effect of Wettability on the Behavior of Non-metallic Inclusions in the Submerged Entry Nozzle in CC Mold

Nakane,

Harada

2024

Tetsu-to-Hagane

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Molten steel flow in the submerged entry nozzle (SEN) largely affects the cast steel quality.However, it wasn't clarified how non-metallic inclusions behave at the front of nozzle wall in the SEN. One of the reasons is that the contact angle of inclusions with molten steel is bigger than 90 degree and the effect of wettability of the inclusions and nozzle wall on the multi-phase flow behavior in SEN has not been fully clarified. In this study, water model to simulate the multiphase flow in the SEN has been constructed to investigate the effect of wettability of particles and the nozzle wall on the fluid flow by changing the contact angle of the surface of particles and the nozzle wall. Additionally, an endoscope has been installed into the stopper in order to directly observe the behavior of particles in the SEN. As a result, it was found that particles coated with hydrophobic agent are swept away as if they hit on the nozzle wall and changed the flow direction in the air. This is why the air film was surrounded around the particle by the hydrophobic treatment and cavity bridge was formed between the hydrophobic treated particles in the water. The adhesion force acting between the hydrophobic treated particles was calculated by theoretical analysis and the aforementioned adhesion force could not be ignored compared to the buoyancy force and the drag force in the water.

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“…[7][8][9] Although fluid flow in the nozzle significantly effects on spouting stream as a source of mold flow, few studies have been done in this field. 10,11) Uneven flow velocity depending on plate sliding direction was clarified, 11) however, precise consideration of gas-liquid multi-phase-flow in numerical simulations and replication of steel flow by water models are insufficient to reveal fluid flow in submerged entry nozzle. Whether steel flow in the nozzle is potential-flow or plug-flow is still unclear.…”

Section: Introductionmentioning

confidence: 99%

Fluid Flow Behavior in Submerged Entry Nozzle of Continuous Casting

Kato¹,

Hara²,

Muto

et al. 2007

ISIJ Int.

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A Hidrodynamical Analysis of the Molten Steel Flow in the Continuous Casting Mold

Cited by 12 publications

References 1 publication

Perspectives of Research on High-speed Conventional Slab Continuous Casting of Carbon Steels.

Perspectives of Research on High-speed Conventional Slab Continuous Casting of Carbon Steels.

Effect of Wettability on the Behavior of Non-metallic Inclusions in the Submerged Entry Nozzle in CC Mold

Fluid Flow Behavior in Submerged Entry Nozzle of Continuous Casting

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