Overview of Silicon Carbide Ceramic

Silicon carbide (SiC) ceramic is a high-performance material known for its exceptional hardness, wear resistance, and thermal stability. It is widely used in cutting tools, abrasives, automotive components, and high-temperature applications due to its superior mechanical properties and chemical inertness.

Features of Silicon Carbide Ceramic

High Hardness: SiC ceramics are among the hardest known materials, making them ideal for abrasive and cutting applications.
Thermal Stability: They can withstand extreme temperatures without degrading, making them suitable for high-temperature environments.
Wear Resistance: Exceptional resistance to wear and abrasion ensures long-lasting performance.
Chemical Inertness: Resistant to most chemicals, including acids and alkalis, enhancing their durability in harsh conditions.
Low Thermal Expansion: Minimal expansion or contraction with temperature changes, ensuring dimensional stability.
Electrical Conductivity: Some forms of SiC ceramics exhibit semiconducting properties, useful in electronic devices.

(Sintered Silicon Carbide Ceramic Plate for Semiconductor high temperature resistant ceramic plate)

Specifications of Sintered Silicon Carbide Ceramic Plate for Semiconductor high temperature resistant ceramic plate

The Sintered Silicon Carbide Porcelain Plate is designed for semiconductor applications calling for severe warmth resistance. It runs dependably in temperatures approximately 1650 ° C. The material handles quick home heating or air conditioning without breaking. This makes certain security in high-temperature environments like diffusion furnaces or thermal handling chambers.

Home plate transfers warmth successfully as a result of its high thermal conductivity. This property preserves also temperature level circulation across its surface. It avoids hotspots throughout semiconductor manufacturing. The architectural honesty remains intact under mechanical anxiety. Its high solidity resists wear and contortion gradually.

Chemical resistance is another essential feature. The plate does not respond with harsh gases, acids, or alkalis. This makes it ideal for engraving or deposition processes. Contamination threats are decreased since the material remains inert under harsh conditions.

Purity degrees surpass 99.5%, essential for semiconductor production. Impurities might damage sensitive elements. Home plate’s low particle generation makes sure clean production settings. Its surface area finish is polished to a roughness below 0.2 micrometers. Smooth surfaces reduce friction and stop debris accumulation.

Custom shapes and sizes are available to fit particular equipment demands. Thickness, size, and geometry can be adjusted. This adaptability supports assimilation into numerous semiconductor devices.

The ceramic plate surpasses options like graphite or alumina. It lasts longer under duplicated thermal cycles. Upkeep expenses lower due to decreased replacement frequency. Its toughness makes certain consistent efficiency in demanding applications such as wafer handling, chemical vapor deposition, or plasma etching.

The combination of warm resistance, toughness, and chemical security makes it a useful option for semiconductor suppliers. Functional effectiveness improves with reduced downtime. Power consumption is maximized with efficient warmth monitoring.

(Sintered Silicon Carbide Ceramic Plate for Semiconductor high temperature resistant ceramic plate)

Applications of Sintered Silicon Carbide Ceramic Plate for Semiconductor high temperature resistant ceramic plate

Sintered silicon carbide ceramic plates take care of severe warmth in semiconductor manufacturing. These plates work in temperatures over 1600 ° C without breaking down. Their structure stays solid also when temperature levels transform swiftly. This makes them reputable for procedures requiring steady performance under anxiety.

These plates relocate warm efficiently. They spread warmth uniformly to stop locations. This protects fragile components throughout high-temperature steps. They stand up to reactions with acids, antacid, and hostile gases. This maintains them intact in harsh chemical environments.

Silicon carbide ceramics increase really little bit when heated up. This quits warping or breaking during rapid home heating or air conditioning. They remain dimensionally steady, guaranteeing precision in semiconductor tools. Their solidity and put on resistance allow them last much longer than steels or other porcelains. This decreases downtime and replacement expenses.

Semiconductor production calls for clean products. These plates fulfill high purity standards. They release nearly no fragments or pollutants. This prevents problems in wafers. They operate in oxidation furnaces, diffusion systems, and CVD chambers. They hold wafers securely during etching or deposition.

These porcelains insulate electrical energy. This avoids current leaks in devices. They take care of strong voltages and temperatures without shedding function. Their smooth surface permits very easy cleansing. This maintains procedures regular over lots of cycles.

Making use of sintered silicon carbide cuts lasting prices. Its durability reduces maintenance and component replacement demands. Manufacturing facilities see fewer disturbances and higher output. It fits progressed nodes like 5nm or 3nm chip production. It manages greater thermal budget plans as gadgets diminish.

The material carries out in vacuum cleaner setups. It lasts longer than graphite or quartz in destructive environments. It is perfect for LED epitaxy and power device processing. Its residential properties help meet rigorous market standards for temperature level, tidiness, and integrity.

This ceramic plate sustains next-gen semiconductor technology. It deals with heat management and stability challenges in sophisticated manufacture. Makers trust it for important high-temperature actions. It makes certain top quality and effectiveness popular applications.

Company Introduction

Welcome to It-Chuiko, a premier international supplier of high-quality silicon carbide powder and silicon carbide ceramics. Our products are renowned for their exceptional hardness, thermal stability, and wear resistance, making them ideal for abrasives, cutting tools, refractory materials, and advanced semiconductor applications. We serve a diverse range of industries, including automotive, aerospace, and electronics, with a commitment to quality and innovation. With state-of-the-art production facilities and rigorous quality control, we ensure that our customers receive superior products tailored to their specific needs. Partner with us for reliable, high-performance materials that drive your business forward.

If you have any questions, please feel free to contact us(nanotrun@yahoo.com).

Payment Methods

T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of Sintered Silicon Carbide Ceramic Plate for Semiconductor high temperature resistant ceramic plate

Sintered Silicon Carbide Ceramic Plates handle extreme heat in semiconductor manufacturing. They work in high-temperature processes without breaking down. Below are common questions about these plates.

What is Sintered Silicon Carbide? Sintered Silicon Carbide is a ceramic made by heating silicon carbide powder at high temperatures. The process bonds particles without melting them. This creates a material resistant to heat, wear, and chemicals. It works well in harsh environments like semiconductor production.

Why use this material for high-temperature semiconductor processes? The plates withstand temperatures over 1600°C. They keep their shape and strength under heat. Other materials warp or degrade. Silicon carbide also conducts heat well. This helps control temperature during semiconductor manufacturing.

How does it handle sudden temperature changes? The material resists thermal shock. Rapid heating or cooling does not crack it. Its low thermal expansion means it expands little when heated. This reduces stress buildup. It lasts longer in processes with frequent temperature shifts.

What chemicals can it resist? It resists acids, alkalis, and molten salts. Harsh chemicals in etching or cleaning do not damage it. It does not react with most substances. Avoid using it with hydrofluoric acid or strong bases at high temperatures.

How to maintain the plates? Clean them with non-abrasive methods. Use mild solvents or compressed air. Avoid impacts or scratches during handling. Check for surface damage regularly. Proper care ensures long service life. The plates typically last years under normal conditions. Follow the manufacturer’s guidelines for best results.

(Sintered Silicon Carbide Ceramic Plate for Semiconductor high temperature resistant ceramic plate)