Silicon Carbide Pillars are manufactured using top-grade silicon carbide material, ensuring superior quality and performance. These pillars exhibit excellent mechanical strength, thermal conductivity, and resistance to high temperatures, corrosion, and wear. The unique design and structure of our SiC Pillars provide efficient heat dissipation and electrical insulation, making them ideal for a wide range of industrial applications. Each pillar is carefully crafted to meet industry standards, with a focus on durability and reliability in demanding environments.
Product Parameters
| Typical Physical Properties | ||
| ReSiC (Recrystalised) | NSiC (Fine Nitride Bonded) | |
| Max Usage Temp. | 1650 °C / 3000 °F | 1450 °C / 2650 °F |
| Bulk Density | 2.7 g/cm³ | 2.8 g/cm³ |
| Open Porosity | 15 % | 13 % |
| MoR @ Room Temp. | 90 MPa | 160 MPa |
| Thermal Conductivity | 25 W/mK | 15 W/mK |
| Thermal Expansion 20-1000°C | 4.8 x10-6/K | 4.7 x10-6/K |
| Composition | ||
| SiC | > 99 % | 75 % |
| Si3N4 | - | 25 % |
Product Usage:
Silicon Carbide Pillars are versatile and can be used in various applications, including:
Ceramics and Porcelain Production: As supports for kiln furniture, enhancing the efficiency and quality of ceramic and porcelain products.
Electronics Industry: Used in semiconductor manufacturing and other high-temperature processes due to their excellent thermal and electrical properties.
Metallurgy: Ideal for supporting heavy loads in high-temperature furnaces, contributing to energy savings and increased productivity
Product Advantages
High-Temperature Resistance
SiC Pillars can withstand temperatures up to 1350°C, making them suitable for high-temperature applications.
Superior Mechanical Strength
With a compressive strength of up to 1450 kg/cm², these pillars offer excellent load-bearing capabilities.
Low Thermal Expansion
The low thermal expansion coefficient ensures dimensional stability even under extreme temperature changes.
Excellent Thermal Conductivity
High thermal conductivity allows for efficient heat transfer, enhancing overall process efficiency
Long Service Life
The durability of SiC Pillars reduces the need for frequent replacements, lowering maintenance costs
Customizable:
Available in various sizes and shapes to meet specific application requirements.
Product technology:
Silicon Carbide Pillars are manufactured using a precise and controlled process to ensure the highest quality. The process involves:
Raw Material Preparation: High-purity silicon carbide is carefully selected and prepared to ensure consistency and quality.
Molding and Pressing: The material is then molded and pressed into the desired shape, ensuring uniform density and structure.
Firing and Sintering: The molded pillars undergo high-temperature firing and sintering processes to achieve their final properties.
Quality Control: Each pillar is rigorously tested to ensure it meets our stringent quality standards.
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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