Overview of Amorphous Strips Field Bn Tube Boron Nitride Ceramic

Amorphous Strips Field Bn Tube Boron Nitride Ceramic ceramics are a class of advanced technical ceramics, often referred to as “white graphite.” They are renowned for their unique combination of properties, including high thermal conductivity, excellent electrical insulation, and outstanding thermal shock resistance. Available in various forms such as hot-pressed solids, coatings, and composites, BN ceramics are critical in demanding applications across aerospace, electronics, and metallurgical industries.

Features of Amorphous Strips Field Bn Tube Boron Nitride Ceramic

• High Thermal Conductivity: Offers excellent heat dissipation, similar to metals, while maintaining electrical insulation.

• Excellent Thermal Shock Resistance: Withstands extreme and rapid temperature changes without cracking.

• Superior Electrical Insulation: Maintains high resistivity even at elevated temperatures.

• Low Dielectric Constant and Loss: Ideal for high-frequency and microwave applications.

• Good Chemical Inertness: Resists attack from most molten metals, slags, and salts.

• Non-wetting and Non-reactive: With many molten metals like aluminum and copper.

• High Temperature Stability: Can be used in inert or vacuum atmospheres up to 3000°C.

• Machinability: Can be precision-machined into complex shapes using conventional tools, unlike many other advanced ceramics.

Specifications of Amorphous Strips Field Bn Tube Boron Nitride Ceramic

The amorphous strips field BN tube is made of boron nitride ceramic. This special material handles extreme heat well. It moves heat quickly. This is important in hot places. The tube stays stable even above 2000°C. It doesn’t melt easily. It doesn’t crack from sudden temperature changes either. This makes it reliable for tough jobs.

It stops electricity very effectively. This is a key feature. You can use it where electrical insulation is critical. It prevents short circuits. It keeps things safe. The material is also very pure. It doesn’t add unwanted stuff to sensitive processes. This purity matters in high-tech manufacturing.

The ceramic resists most chemicals. Acids and alkalis don’t damage it. Molten metals don’t stick to it. This chemical resistance is strong. It lasts a long time in harsh environments. You get good value for your money. The tube is also machinable. You can shape it precisely. This allows for custom fittings. It helps meet specific design needs.

Its surface is smooth. This reduces friction. Things flow past it easily. This is useful in many applications. The material is light. It doesn’t add much weight to systems. This helps with efficiency. Its amorphous structure gives unique benefits. It differs from crystalline boron nitride. It offers better flexibility in some forms.

This BN tube is used in many industries. Semiconductor processing needs it. Metallurgy uses it for handling molten metals. Aerospace applications benefit from its heat resistance. It works well in high-temperature furnaces. It serves as crucibles, insulators, and liners. It provides thermal management solutions. It ensures process reliability under stress. It handles demanding conditions consistently.

Applications of Amorphous Strips Field Bn Tube Boron Nitride Ceramic

Amorphous boron nitride ceramic strips and tubes offer unique properties. They handle extreme heat very well. They also insulate electricity perfectly. This makes them valuable in tough environments. Many industries use them.

These ceramic parts excel in thermal management. They move heat away from hot spots efficiently. Electronics like high-power LEDs and computer chips get too hot. BN strips and tubes pull that heat out. This stops overheating. Devices last longer and work better.

High temperature furnaces need reliable insulation. BN ceramic tubes are perfect here. They withstand intense heat without breaking down. They protect furnace elements and sensors. Molten metal processing uses them too. BN tubes guide molten metal safely. They don’t react with the metal. This keeps the metal pure.

Semiconductor manufacturing demands ultra-clean materials. Amorphous boron nitride fits this need. It doesn’t release gases under vacuum. It doesn’t contaminate sensitive processes. BN strips and tubes are used in wafer handling and furnace parts. They ensure clean production conditions.

The aerospace industry uses these ceramics. Aircraft electronics face high heat and electrical stress. BN strips provide insulation and heat spreading. Rocket nozzles experience extreme temperatures. BN components help manage this heat. They maintain structural integrity.

Company Profile

Tanki New Materials Co.Ltd. focus on the research and development, production and sales of ceramic products, serving the electronics, ceramics, chemical and other industries. Since its establishment in 2015, the company has been committed to providing customers with the best products and services, and has become a leader in the industry through continuous technological innovation and strict quality management.

Our products includes but not limited to Aerogel, Aluminum Nitride, Aluminum Oxide, Boron Carbide, Boron Nitride, Ceramic Crucible, Ceramic Fiber, Quartz Product, Refractory Material, Silicon Carbide, Silicon Nitride, ect. please feel free to contact us.

Payment Methods

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

Shipment Methods

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

5 FAQs of Amorphous Strips Field Bn Tube Boron Nitride Ceramic

This amorphous strips field BN tube uses boron nitride ceramic. People often ask these questions.

What exactly is this material? It’s boron nitride processed into an amorphous structure. This means its molecules aren’t arranged in a regular pattern like crystalline BN. The result is a very pure ceramic strip. It handles extreme conditions well.

Why use it instead of other ceramics? Its main strength is handling intense heat. It insulates superbly at high temperatures. It also resists chemical attack from many molten metals and salts. This makes it perfect for demanding furnace parts or semiconductor tools needing reliable insulation.

How hot can it safely get? This material performs reliably up to about 1800 degrees Celsius in air. Its performance in inert atmospheres or vacuum is even better. It withstands thermal shock very well. Sudden temperature changes won’t easily crack it.

Does it conduct electricity? No, it’s an excellent electrical insulator. This property stays strong even at very high temperatures. It won’t short out your equipment. You can use it safely around electrical components needing isolation.

Is it fragile? Handle it carefully. While strong under compression, it can be brittle. Avoid dropping it or hitting it hard. It can chip or break if mishandled. Use proper care during installation and use.