Overview of 1260 Heat Insulation Alumina Silicate Ceramic Fiber Board with High Temperature and Thermal Conductivity

1260 Heat Insulation Alumina Silicate Ceramic Fiber Board with High Temperature and Thermal Conductivity is precision-engineered from 99%+ pure aluminum oxide (Al₂O₃), offering exceptional mechanical strength and thermal stability. Designed to withstand temperatures up to 1800°C, these shafts provide superior performance in demanding applications including precision machinery, chemical pumps, semiconductor equipment, and high-speed bearings.

The combination of extreme hardness (9 Mohs), low friction coefficient, and excellent corrosion resistance makes alumina ceramic shafts ideal replacements for metal components in harsh environments.

Key Features of 1260 Heat Insulation Alumina Silicate Ceramic Fiber Board with High Temperature and Thermal Conductivity

Ultra-High Temperature Resistance – Stable operation up to 1800°C

Exceptional Wear Resistance – 5-10x longer lifespan than steel shafts

Corrosion Proof – Resistant to acids, alkalis and solvents

Lightweight – 60% lighter than steel with higher strength

Electrical Insulation – Excellent dielectric properties

Customizable – Available in various diameters, lengths and tolerances

(1260 Heat Insulation Alumina Silicate Ceramic Fiber Board with High Temperature and Thermal Conductivity)

Specification of 1260 Heat Insulation Alumina Silicate Ceramic Fiber Board with High Temperature and Thermal Conductivity

This 1260 Heat Insulation Alumina Silicate Ceramic Fiber Board handles extreme temperatures. It withstands constant heat up to 1260 degrees Celsius. Short term exposure to even higher heat is possible. This makes it ideal for demanding industrial settings. The board offers excellent thermal insulation. Its low thermal conductivity keeps heat where it belongs. This saves significant energy costs. Less heat escapes the system. Furnaces and kilns stay hotter inside. Operators see real fuel savings. The board maintains its structure well. It resists shrinkage and warping under heat stress. This ensures long-term performance reliability. Installation is straightforward. The board cuts easily to fit specific spaces. Workers shape it for pipes, walls, and complex equipment. The material is strong. It withstands physical handling and vibration. Its high compressive strength supports other components. The board is chemically stable. It resists attack from many common industrial gases and fumes. Corrosion is not a major concern. Fire safety is inherent. The ceramic fiber board does not burn. It actively hinders flame spread. This provides crucial protection. Applications cover many areas. Use it in furnace linings, boiler insulation, and kiln car tops. It works for expansion joints and heat shields. The board insulates pipes carrying hot gases. It backs up fire doors and protects sensitive equipment. This material delivers reliable high-temperature insulation. It improves efficiency and safety in hot processes. Factories and plants depend on its consistent performance.

(1260 Heat Insulation Alumina Silicate Ceramic Fiber Board with High Temperature and Thermal Conductivity)

Applications of 1260 Heat Insulation Alumina Silicate Ceramic Fiber Board with High Temperature and Thermal Conductivity

This 1260 heat insulation alumina silicate ceramic fiber board handles extreme heat. It withstands temperatures up to 1260°C. Its low thermal conductivity is a major benefit. This means heat moves through it very slowly. It keeps heat where it belongs. This saves significant energy. It lowers fuel costs.

This board is versatile. It serves many high-temperature jobs. It works well as furnace linings. It lines kilns effectively. It insulates boilers safely. It protects pipes carrying hot gases or liquids. Its stability is key. It doesn’t shrink much at high heat. This keeps insulation gaps tight. It prevents heat leaks.

The metal industry uses it heavily. It lines heat treatment furnaces. It insulates soaking pits. It protects annealing lines. Foundries use it in melting applications. The ceramics sector relies on it. It insulates kilns for firing tiles, pottery, and bricks. It withstands the harsh conditions.

Power plants need it too. It insulates boiler casings. It lines ductwork. It protects critical equipment from heat loss. Petrochemical plants use it. It insulates reformers and crackers. It keeps pipes hot. This prevents unwanted cooling. It saves energy.

Its low heat storage is important. Furnaces heat up quickly. They cool down faster. This saves more energy. It speeds up production cycles. Workers are safer. It provides a reliable thermal barrier. It reduces surface temperatures. This protects nearby equipment.

Installation is straightforward. It can be cut easily. It fits complex shapes. It can be glued or anchored. It works as backup insulation. It supports firebrick. It seals expansion joints. It acts as a gasket material. It fills gaps in high-temperature systems. Its strength resists erosion. Hot gases flowing past cause less damage. This extends the life of the insulation layer. It performs reliably long-term.

Company Profile

Alumina Technology Co., Ltd,. We focus on the research and development, production and sales of alumina products, serving the electronics, ceramics, chemical and other industries. Since its establishment in 2005, 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 Alumina Boat, Alumina Crucible, Alumina Dish, Alumina Foam Filter, Alumina Plate, Alumina Rod, Alumina Bar, Alumina Balls, Filter Alumina, Nano Alumina Powder, Spherical Alumina Powder, ect. 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 1260 Heat Insulation Alumina Silicate Ceramic Fiber Board with High Temperature and Thermal Conductivity

What’s the max temperature this board handles?
This board handles continuous heat up to 1260°C (2300°F). It stays stable at that temperature. It won’t melt or warp easily. This makes it good for very hot furnaces and kilns.

How well does it stop heat moving?
It’s very good at insulating. Its thermal conductivity is very low, typically between 0.12 and 0.18 W/m·K at 600°C. This low number means heat passes through it slowly. Less heat escapes, saving energy.

Is this ceramic fiber board safe?
Yes, it’s safe for industrial use. It’s made from alumina silicate fibers bound together. It doesn’t contain asbestos. It meets common safety standards. Always check your local rules for specific applications.

How do you install it?
Installation is simple. You cut it to size with regular woodworking tools. Fit it into the furnace or equipment lining. Use mechanical anchors or high-temperature adhesive to hold it securely. Wear a mask when cutting to avoid dust.

Why pick this over other insulation?
This board beats many alternatives for high heat. It handles much hotter temperatures than mineral wool. It insulates better than many bricks at high temps. It’s lighter than dense firebrick, making structures easier to build. It also resists thermal shock well.

(1260 Heat Insulation Alumina Silicate Ceramic Fiber Board with High Temperature and Thermal Conductivity)