Silicon Carbide Brick Advantages
- Excellent wear resistance, longer equipment service life.
- No deformation during long-term use under high impact.
- Provides effective wear protection for mining equipment.
- Precise dimensions, suitable for demanding applications.
- Maintain stable performance in corrosive environments.
- Economical and cost-effective.
Successful Cases of Silicon Carbide Brick
In the mining industry, wear protection for fixed and mobile mining equipment is an important investment. Silicon Carbide bricks and tiles are widely used in chutes, feed troughs, hydrocyclones, sorters, loading buckets, and other equipment due to their excellent wear and corrosion resistance. Long-term use and high cost-effectiveness.

Silicon Carbide Brick with Various Designs
We customize Carborondum Brick sizes and shapes for various equipment.

Uniquely fit and function in specific wear-resistant applications.


Different Silicon Carbide Bricks
Silicon Carbide Liners and bricks are widely used in industrial fields that require wear protection due to their excellent hardness, wear resistance, impact resistance, and corrosion resistance.
- Silicon Carbide Brick
Modular design for easy installation, maintenance, and cost-effective wear solutions.
- Silicon Carbide Bushing
Significantly extend the operational lifespan of critical equipment.
- Silicon Carbide Cyclone Liner
Primarily used as internal liners in hydrocyclones to minimize wear and maximize efficiency.
- Silicon Carbide Elbow
Effectively combat rapid wear in pipeline bends, ensuring prolonged overall service life.
- Silicon Carbide Apex
Leveraging the superior wear resistance of SiC for long-lasting performance in highly abrasive environments.
- Silicon Carbide Vortex
Dramatically increase pipeline longevity and reduce long-term maintenance expenditures.
Why Choose Newthink Silicon Carbide Brick?

Consistent, high-quality silicon carbide wear products through leading technology.

Our advanced equipment ensures accurate cutting, shaping, and finishing to meet your exact dimensional requirements.

Offering custom sizes and shapes, including trapezoidal, curved, and extra-thick designs, precisely engineered for your unique equipment and applications.

With ISO certification, we strictly control every step to ensure stable and reliable product quality.

We offer free silicon carbide tile samples for testing. Small orders can be shipped within 15 days.

Utilizing robust plywood boxes with plastic foam wrapped around the Silicon Carbide brick to ensure safe transportation and arrival abroad, minimizing damage during shipping.
Common Custom Sizes and Shapes of Silicon Carbide Brick
Below are our popular custom sizes and shapes of Silicon Carbide Brick and SiC plates.
Shapes: Trapezoid, curved, square, rectangle, etc..
Sizes: 100*150*50mm, 150*50*25mm, 150*100*10mm, 150*100*20mm, 200*100*10mm, 200*100*15mm, 240*50*12mm, 250*100*20mm, 98*74*20mm, 38*38*38mm.
Thickness varies from 10 to 50mm.


Silicon Carbide Brick Package
Our standard packaging features sturdy plywood wood boxes with internal foam cushioning, ensuring optimal protection against shifting and damage during international shipping of silicon carbide bricks.
We also offer customized packaging solutions based on specific customer requirements, primarily for non-standard sizes or shapes of silicon carbide tiles.
Silicon Carbide Brick Production Workshop


Newthink has 14 years of experience in advanced ceramic production. At our workshop, you’ll find industry-leading equipment for cutting, making, and surface finishing designed specifically for the precision machining of Silicon Carbide components. Every stage, from raw material analysis to performance testing of the finished product, we strictly observe the quality control procedures in place to ensure that we consistently produce good and reliable outcomes.
We also have an area dedicated to the packaging, where products are packed one by one, carried along with foam-filled plywood or hardwood boxes to make sure that the product is not damaged in the process of being transported. You’re welcome to visit the workshop anytime and see the quality for yourself.
Parameters for Different Types of Silicon Carbide Bricks
The following are some technical parameters of silicon carbide bricks in terms of wear resistance:
- Parameter Table
Item | Unit | Data |
Max service temperature | ℃ | 1380 |
Density | g/cm3 | 3.02 |
Open porosity | % | 0 |
Bending strength 20℃ | Mpa | 250 |
Bending strength 1200℃ | Mpa | 280 |
Modulus of elasticity 20℃ | Gpa | 330 |
Modulus of elasticity 1200℃ | Gpa | 300 |
Thermal conductivity 1200℃ | W/m.k | 45 |
Coefficient of thermal expansion | K-lx10-6 | 4.5 |
HV | kg/mm² | 2115 |
Related Products
- Ceramic Refractory Bricks
High-temperature resistant building ceramics.
- Alumina Brick
Strong, chemically resistant high-alumina refractory.
- Alumina Refractory Bricks
Superior thermal and corrosion-resistant alumina.
- Furnace Brick
Refractory for extreme furnace heat.
Silicon Carbide wear-resistant bricks are a form of wear-resistant material in the shape of a brick made of Silicon Carbide ceramic material. Its main characteristics are very high hardness, satisfactory wear resistance, satisfactory corrosion resistance, and high temperature resistance. They are generally used to resist material wear caused by friction, impact, or chemical erosion in harsh industrial conditions.
Specifically engineered to meet the demands of the mining industry, silicon carbide tiles provide greater resistance to abrasive wear and corrosive environments prevalent in material handling and processing, meaning longer equipment life and lower maintenance costs.
Silicon carbide liners are extensively utilized in mining operations by providing a wear-resistant, hard-wearing lining in critical equipment exposed to the continuous onslaught of abrasion-resistant ores and treatment chemicals, ensuring long-term performance and minimum maintenance.
① With the extremely abrasive environment of the mining area, silicon carbide plates possess excellent wear resistance far exceeding ordinary materials. For example, the Mohs hardness of SiC reaches up to 10 and the Vickers hardness up to 20 GPa, far exceeding alumina.
② Because of the severe scouring and colliding of ore and slurry that is generally encountered in mining operations, silicon carbide tiles demonstrate better wear resistance due to their high hardness and better fracture toughness (about 3 MPa·m¹/²).
Therefore, in the main components of mining equipment that have to withstand wear and corrosion at the same time, silicon carbide plates are a superior, tougher, and more reliable alternative.