Overview of Industrial Furnace Kiln Aluminium Silicate Composition Heat Insulation Refractory 1600 Degrees Thermal Ceramic Fiber Board

Industrial Furnace Kiln Aluminium Silicate Composition Heat Insulation Refractory 1600 Degrees Thermal Ceramic Fiber Board are non-metallic substances designed to withstand extreme temperatures exceeding 1,000°C, along with harsh chemical and physical stresses. They are essential for the inner linings of industrial furnaces, kilns, reactors, and incinerators, providing critical thermal insulation and structural integrity in processes ranging from metal and glass manufacturing to power generation.

Features of Industrial Furnace Kiln Aluminium Silicate Composition Heat Insulation Refractory 1600 Degrees Thermal Ceramic Fiber Board

• High-Temperature Resistance: Maintain structural strength and stability at temperatures often exceeding 1500°C.

• Excellent Thermal Shock Resistance: Withstand rapid heating and cooling cycles without cracking or spalling.

• Chemical Inertness: Resist corrosion and degradation from slags, molten metals, and acidic or basic environments.

• High Mechanical Strength: Possess considerable load-bearing capacity at operating temperatures.

• Low Thermal Conductivity: Provide effective insulation to improve energy efficiency and protect furnace structures.

• Abrasion Resistance: Withstand erosion from solid materials and gas flows.

Specification of Industrial Furnace Kiln Aluminium Silicate Composition Heat Insulation Refractory 1600 Degrees Thermal Ceramic Fiber Board

This industrial furnace insulation board handles extreme heat. It withstands temperatures up to 1600 degrees Celsius. The core material is aluminium silicate ceramic fiber. This composition gives it excellent thermal stability. The board form makes installation straightforward. Workers cut it easily to fit specific furnace or kiln shapes. It provides strong heat insulation. This reduces energy costs significantly. Furnaces stay hotter inside while losing less heat outside.

Its thermal conductivity remains very low. Less heat escapes through the furnace walls. This protects the outer structure. Workers nearby experience a safer environment. The board also resists thermal shock well. Rapid temperature changes cause minimal damage. This extends the equipment’s service life. Downtime for repairs decreases. Production efficiency improves.

The material offers good chemical stability. It resists corrosion from common furnace atmospheres. This ensures reliable, long-term performance. The board has a consistent density. This provides uniform insulation properties. It stays dimensionally stable under high heat. Warping or shrinking is minimal. Structural integrity is maintained.

These boards suit many demanding applications. Use them in steel heat treatment furnaces. Use them in ceramic kilns. Use them in non-ferrous metal processing units. Use them in chemical reactors requiring high heat. They deliver reliable, high-temperature insulation. Energy savings result directly. Furnace efficiency sees a clear improvement.

Applications of Industrial Furnace Kiln Aluminium Silicate Composition Heat Insulation Refractory 1600 Degrees Thermal Ceramic Fiber Board

This Industrial Furnace Kiln Aluminium Silicate Composition Heat Insulation Refractory Board handles extreme temperatures. It withstands continuous heat up to 1600 degrees Celsius. This makes it essential for demanding industrial settings. The board is made from high-purity aluminium silicate ceramic fibers. These fibers are bonded together under pressure. This creates a strong, rigid structure. The board is lightweight compared to old-fashioned bricks. This simplifies installation and reduces stress on furnace structures.

Its main job is blocking heat. The ceramic fiber structure traps air incredibly well. Air is a poor heat conductor. This trapped air creates a powerful thermal barrier. Furnaces and kilns keep more heat inside. This saves significant energy. Operators see lower fuel costs. The board also cools down faster. This allows quicker furnace cycling. Production speeds can increase.

You find this board in many high-temperature spots. It lines steel reheating furnaces perfectly. It insulates soaking pits effectively. Glass melting furnaces rely on its stability. Ceramic kilns use it for consistent firing. Heat treatment furnaces benefit from its efficiency. Petrochemical crackers need its resilience. It acts as backup insulation behind firebrick. It seals expansion joints reliably. It protects structural steel from radiant heat.

The board offers excellent chemical stability. It resists attack from most furnace atmospheres. This includes oxidizing and reducing conditions. It handles thermal shock exceptionally well. Rapid temperature changes won’t crack it. This reliability extends equipment life. Maintenance needs decrease. The low heat storage means less energy wasted heating the lining itself. Furnace exteriors stay cooler. This improves workplace safety. It handles extreme heat well.

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 Industrial Furnace Kiln Aluminium Silicate Composition Heat Insulation Refractory 1600 Degrees Thermal Ceramic Fiber Board

What maximum heat can this board handle?
This insulation board withstands 1600 degrees Celsius continuously. It keeps its strength at this high temperature. This makes it ideal for demanding furnace linings.

What is the board made from?
It uses high-purity aluminium silicate ceramic fibers. These fibers are tightly compressed. This creates a strong, rigid board. The material excels at blocking heat transfer.

How do you install it in a furnace?
Cut the board to your required size easily. Use standard woodworking tools. Fix it firmly using ceramic anchors or high-temp adhesive. Ensure tight joints. This prevents heat leaks.

Does it last long under intense heat?
Yes. The board resists extreme heat very well. It has low thermal conductivity. This means less heat escapes. Your furnace runs more efficiently. You save energy. Its structure stays stable. It minimizes cracking and shrinkage over time.

Is it safe for furnace workers?
Handle the board carefully before installation. Wear gloves and a dust mask. Fibers can irritate skin and lungs. Once installed inside the furnace lining, it poses no risk. The fibers lock in place permanently.