Silicon carbide plates are characterized by their high mechanical strength and toughness, making them ideal for demanding applications such as armor and ballistic protection, cutting tools, and wear-resistant components. These plates exhibit excellent thermal properties, including high thermal conductivity and low thermal expansion, which makes them suitable for high-temperature applications. Additionally, SiC plates have outstanding chemical resistance, making them ideal for use in harsh chemical environments. They are resistant to many acids, bases, and oxidizing agents, and can withstand exposure to corrosive gases and liquids.
Product Parameters
|
performance |
Index |
|
|
Bulk Density(g/cm3) |
≥2.62~2.72 |
|
|
Apparent porosity(%) |
≤15 |
|
|
Normal temperature compressive strength(Mpa) |
120 |
|
|
Flexural strength(Mpa) |
20℃ |
90~100 |
|
1200℃ |
100~110 |
|
|
1400℃ |
110~120(1350℃) |
|
|
Coefficient of linear expansion ℃-1 (20-1000℃) |
4.7×10-6 |
|
|
Maximum operating temperature (℃) |
1650(Reducing atmosphere) |
|
Product Usage:
Silicon carbide plates are utilized across various industries due to their superior properties:
Iron and Steel Smelting: Used in high-temperature environments for enhanced durability and thermal performance.
Kiln Shelves and Furniture: Supports components in kilns, providing resistance to thermal shock and erosion.
Feeding Systems: Ideal for handling abrasive materials in processing systems.
Armor and Ballistic Plates: Provides lightweight, high-strength protection in military and personal armor applications.
Spray Nozzles: Efficiently delivers fluids in industrial processes.
Shot Blast Nozzles: Enhances surface preparation and finishing operations.
Product Advantages
High-Temperature Resistance:
SiC plates can withstand extreme temperatures, making them suitable for use in high-temperature environments
Excellent Wear Resistance
The dense structure of SiC plates provides superior resistance to mechanical wear.
Thermal Shock Resistance
The low thermal expansion coefficient of SiC allows the plates to resist thermal stress during rapid temperature changes.
Chemical Stability
SiC plates maintain stable physical and chemical properties at high temperatures, preventing deformation or cracking.
Protective Layer Formation
The surface of SiC plates forms a dense protective layer during use, which prevents further erosion and extends the service life
Customizable:
Available in various sizes and shapes to meet specific application requirements.
Product technology:
Key steps include:
The manufacturing process of silicon carbide plates involves several critical steps. High-quality SiC powder is carefully selected and blended. The mixture is then subjected to high-pressure molding to achieve a uniform and dense structure. The formed plates are subsequently fired at high temperatures to ensure their strength and durability. This process results in plates with a high degree of crystalline bonding, which enhances their resistance to chemical attack and thermal shock.
Why Choose Us?
23+
years experience focus on refractories field
2 plants
with 3 sets of tunnel kilns for 120,000 tonnes capacity
3 QC
Labs Technology Centres
120+ employees
with ISO9001,TUV,SGS,Intertek certifications
100+
abroad customers in 50+ countries
20+
major industry furnace projects yearly
Packing
FAQ
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