Overview of Ceramic Fiber 1400°C Aluminum Silicate Ceramic Fiber Furnace Refractory Boards.

Ceramic Fiber 1400°C Aluminum Silicate Ceramic Fiber Furnace Refractory Boards. is a lightweight, high-temperature insulation material composed primarily of alumina-silica. It is manufactured through a melting and spinning or blowing process, resulting in a flexible, wool-like textile. This material is engineered to provide exceptional thermal management, conserving energy and protecting equipment in extreme temperature environments across various industries.

Features of Ceramic Fiber 1400°C Aluminum Silicate Ceramic Fiber Furnace Refractory Boards.

• Excellent Thermal Stability: Withstands continuous operating temperatures up to 1260°C (2300°F) and higher for certain grades, with minimal shrinkage.

• Low Thermal Conductivity: Provides highly efficient insulation, reducing heat loss and improving energy efficiency.

• Lightweight & Low Heat Storage: Offers low thermal mass, enabling rapid heat-up and cool-down cycles for improved process control and energy savings.

• Thermal Shock Resistance: Highly resistant to damage from rapid temperature changes.

• Excellent Flexibility & Resilience: Can be fabricated into blankets, boards, papers, and textiles to fit complex shapes and applications.

• Good Chemical Stability: Resists attack from most corrosive agents, except strong alkalis and hydrofluoric acid.

Specification of Ceramic Fiber 1400°C Aluminum Silicate Ceramic Fiber Furnace Refractory Boards.

Ceramic fiber boards handle high heat well. These boards resist temperatures up to 1400°C. They are made from aluminum silicate ceramic fibers. The fibers are compressed and bonded tightly. This creates a strong, rigid board. It feels much like traditional insulation boards. This material is lightweight. It saves energy in heating processes. The low thermal conductivity is key. Heat transfers slowly through the board. Furnaces stay hot inside. Less heat escapes to the outside. This improves efficiency. It lowers fuel costs over time. The boards offer good thermal shock resistance. Rapid temperature changes cause little damage. They stay strong and intact. Their structure remains stable even at high heat. There is minimal shrinkage over time. This ensures a long lifespan. Installation is straightforward. Cutting and fitting the boards is easy. They can be shaped for specific furnace designs. These boards also resist chemical attack. Furnace atmospheres don’t degrade them quickly. They are safe for industrial use. The material contains no asbestos. It produces minimal dust. Handling requires standard safety gear. These boards are versatile. They insulate furnaces, kilns, and boilers effectively. They line high-temperature equipment reliably. They serve well as backup insulation layers. Their thermal properties are consistent. They provide dependable heat containment. This makes furnace operation more predictable. Energy savings add up significantly.

Applications of Ceramic Fiber 1400°C Aluminum Silicate Ceramic Fiber Furnace Refractory Boards.

Ceramic fiber boards handle extreme heat. They withstand temperatures up to 1400°C. This makes them ideal for high-temperature insulation. Aluminum silicate ceramic fiber is the key material. It offers excellent thermal stability. These boards are lightweight. They are also easy to cut and install. You can shape them to fit different furnace parts. Low thermal conductivity is a major benefit. It means heat stays inside the furnace. This improves energy efficiency significantly. Less heat escapes. Less fuel is needed. Energy costs go down. The boards resist thermal shock well. Sudden temperature changes cause less damage. Furnace linings last longer. Maintenance becomes simpler. Downtime is reduced. Chemical resistance is another advantage. The boards cope with harsh furnace atmospheres. They handle exposure to various gases and fumes. This prevents quick breakdown. Mechanical strength is important too. These boards maintain their shape. They resist erosion from hot gases. They support themselves. Durability is high. You get reliable performance over time. Common uses include furnace linings and backup insulation. They work well in kilns and ovens. Boiler insulation is another application. Fire protection systems often use them. High-temperature gaskets benefit from these boards. They seal effectively against heat leaks. Industrial processes rely on this insulation. It provides safety and efficiency.

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 Ceramic Fiber 1400°C Aluminum Silicate Ceramic Fiber Furnace Refractory Boards.

Here are 5 common questions about Ceramic Fiber 1400°C Aluminum Silicate Ceramic Fiber Furnace Refractory Boards.

What temperature can this board handle? It handles heat up to 1400°C. This makes it suitable for many high-heat industrial uses. The aluminum silicate ceramic fiber provides excellent thermal resistance. It keeps heat inside furnaces effectively.

How is this board installed? Install it using mechanical fasteners like screws or bolts. Adhesives are not strong enough for high temperatures. Secure it firmly to the furnace lining. Ensure a tight fit for best insulation performance. Proper installation prevents heat leaks.

Is special handling required? Yes. Wear gloves and a mask during installation. The fibers can irritate skin and lungs. Avoid breathing in dust. Cutting the board creates loose fibers. Keep the work area clean. Protect yourself while working with it.

Can this board face direct flames? It works best behind firebricks or other protective layers. Direct flame contact can shorten its life. Use it as insulation backing. It provides superior heat protection. Direct exposure to flames is not recommended for long-term use.

Does this board need maintenance? Minimal maintenance is needed. It resists thermal shock well. The board does not crack easily from rapid temperature changes. Inspect it occasionally for damage. Replace damaged sections. It lasts longer with careful use.