1. Introduction
In modern continuous casting steelmaking, the tundish is not merely an intermediate vessel between the ladle and the mold; it is a metallurgical reactor that plays a crucial role in steel cleanliness, temperature control, and flow optimization. To achieve these objectives, a series of functional refractory products are installed in and around the tundish. These refractory items must operate under extreme conditions, including high temperature, aggressive molten steel and slag, thermal shock, erosion, and chemical corrosion.Among the most critical tundish-related refractories are the ladle shroud, stopper rod, seating block, and associated flow-control components such as tundish nozzles and sub-entry nozzles (SENs). Each of these items performs a specific function and must be designed with appropriate material composition, structure, and performance characteristics.
This article provides a detailed technical overview of these key refractory products, focusing on their functions, materials, working conditions, failure mechanisms, and performance requirements.
2. Ladle Shroud
2.1 Function of the Ladle Shroud
The ladle shroud is a tubular refractory component installed between the ladle slide gate and the tundish impact zone. Its primary function is to protect the molten steel stream from reoxidation and nitrogen pickup during transfer from the ladle to the tundish.Key functions include:
- Creating a closed pouring system
- Preventing air aspiration and secondary oxidation
- Reducing inclusion formation
- Stabilizing the steel flow into the tundish
- Minimizing temperature loss
2.2 Materials and Structure
Ladle shrouds are typically manufactured from high-purity alumina-based or zirconia-containing refractories. Common material systems include:- Al₂O₃–C (alumina-carbon)
- Al₂O₃–ZrO₂–C
- ZrO₂–C (for high-end applications)
- High thermal shock resistance
- Excellent resistance to steel and slag corrosion
- Low wettability with molten steel
- High mechanical strength at elevated temperature
2.3 Failure Mechanisms
Typical failure modes of ladle shrouds include:- Oxidation of carbon at high temperature
- Erosion by high-velocity steel stream
- Cracking due to thermal shock
- Joint leakage caused by improper gasket sealing
3. Stopper Rod
3.1 Role of the Stopper Rod in Tundish Flow Control
The stopper rod is a critical flow-control refractory used in tundishes equipped with stopper-controlled casting systems. By moving vertically, the stopper rod regulates the flow rate of molten steel from the tundish to the mold through the tundish nozzle.Main functions:
- Precise control of steel flow
- Stable casting speed
- Quick response during start and end of casting
- Emergency shut-off capability
4.2 Material Characteristics
Seating blocks are typically produced from high-density, high-strength refractory materials, such as:- Dense alumina
- Alumina-spinel composites
- Alumina–zirconia materials
- High compressive strength
- Excellent thermal shock resistance
- Minimal deformation at casting temperature
- Good compatibility with nozzle and tundish lining materials
4.3 Failure Risks
Potential issues include:- Cracking caused by thermal gradients
- Steel leakage due to poor machining tolerance
- Chemical attack from aggressive slags
- Misalignment leading to uneven stopper wear
5. Other Important Tundish Refractory Items
5.1 Tundish Nozzle
The tundish nozzle is installed below the seating block and guides molten steel into the mold or SEN. It must resist:
- Severe erosion
- Chemical attack
- Clogging by non-metallic inclusions
5.2 Sub-Entry Nozzle (SEN)
The SEN connects the tundish to the mold and controls steel delivery into the mold cavity. It plays a vital role in:- Mold flow pattern control
- Slag entrainment prevention
- Surface quality improvement
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