Our Custom Ladle Slide Gate Plate is engineered for high-temperature applications in steelmaking and continuous casting operations. Designed with premium alumina-carbon and other refractory materials, this slide gate plate ensures superior wear resistance, thermal stability, and long service life. Perfectly suited for controlling molten steel flow, it helps maintain smooth operations, reduce maintenance costs, and improve overall production efficiency.
Technical Specifications
| Ladle Slide Gate Plate Physical and Chemical Performance Index | ||||
|---|---|---|---|---|
| Brand Items | HBLT80 | HBLT75 | HBLT70 | |
| Al2O3(%) ≥ | 80 | 75 | 70 | |
| C(%) ≥ | 2 | 3 | 3 | |
| Cold Crushing Strength(MPa) ≥ | Non impregnation | 80 | 70 | 60 |
| Impregnation | 100 | 90 | 80 | |
| Apparent porosity(%) ≤ | Non impregnation | 13 | 13 | 13 |
| Impregnation | 10 | 10 | 10 | |
| Bulk Density(g/cm³) ≥ | Non impregnation | 2.9 | 2.85 | 2.75 |
| Impregnation | 2.95 | 2.9 | 2.85 | |
Key Features
High Temperature Resistance: Able to withstand extreme temperatures encountered during steelmaking and continuous casting.
Wear and Erosion Resistant: Made from advanced refractory materials to resist molten steel erosion and extend service life.
Customizable Designs: Available in various sizes, thicknesses, and compositions to meet specific ladle and casting requirements.
Thermal Shock Stability: Resistant to cracking and deformation under rapid temperature changes.
Precision Flow Control: Optimized shape ensures smooth molten steel flow, reducing turbulence and minimizing defects.
Durable and Long-Lasting: High-quality materials and expert manufacturing for prolonged operational performance.
Typical Applications
Continuous casting ladles in steel plants
Steel refining ladles and ladle transfer systems
High-temperature metal flow control in foundries
Molten steel pouring and distribution systems
Replacement parts for worn or damaged slide gate plates
Production Details
Material Options: Alumina-carbon, magnesia-carbon, high alumina, other refractory composites
Manufacturing Process: Advanced casting and sintering techniques ensure uniform density, minimal porosity, and precise dimensions
Quality Control: Each slide gate plate undergoes rigorous inspection for thermal resistance, wear performance, and dimensional accuracy
Customization: Dimensions, thickness, and compositions can be tailored to customer specifications for optimal fit and performance
Packing and Shipping Details
Packing: Each slide gate plate is carefully packed in wooden crates with protective padding to prevent damage during transportation
Labeling: Clear labels with product specifications and handling instructions
Shipping: Supports sea, air, and land transportation; shipping schedules can be customized based on customer needs
Handling Instructions: Avoid dropping or impacting the plate; store in dry, cool conditions before installation
Frequently Asked Questions (FAQ)
Q1: What materials are available for the ladle slide gate plate?
We offer alumina-carbon, magnesia-carbon, high alumina, and other refractory composites depending on temperature and wear resistance requirements.
Q2: Can the slide gate plate be customized for my ladle size?
Yes, we provide fully custom dimensions and thicknesses to match your ladle and casting system.
Q3. What is the typical service life of a slide gate plate?
Service life depends on operating conditions, but high-quality alumina-carbon plates typically last 6–18 months in continuous casting operations.
Q4: How do you ensure quality and reliability?
Each plate undergoes strict quality control, including thermal shock testing, wear resistance checks, and dimensional inspections.
Q5: How is the product shipped?
Products are securely packed in wooden crates and can be shipped via sea, air, or land, depending on customer requirements.
