Hightemp Ceramic Fiber Board Boosts Industrial Insulation Efficiency

Imagine a scenario where your kiln, fireplace, or oven no longer suffers from unnecessary heat loss. Instead, heat is effectively retained, efficiency is significantly improved, and fuel costs are substantially reduced. This is no longer a distant dream—it can be achieved with a single high-performance refractory ceramic fiber board.

Designed to withstand extreme temperatures up to 2300°F (1260°C), this ceramic fiber board offers reliable thermal insulation and protection for high-heat applications.

Manufactured using high-quality aluminosilicate materials through a vacuum-forming process, this ceramic fiber board delivers exceptional heat resistance. Its advanced composition ensures stability even under the most demanding conditions, making it suitable for industrial furnaces, residential fireplaces, and commercial pizza ovens alike.

• Low Thermal Conductivity: The board's minimal heat transfer properties significantly reduce energy loss, leading to improved fuel efficiency.
• Minimal Heat Storage: Unlike traditional refractory bricks, the ceramic fiber board heats up and cools down quickly, shortening operational cycles and enhancing productivity.
• Excellent Thermal Shock Resistance: Capable of enduring rapid temperature fluctuations without cracking or degradation, maintaining structural integrity over time.

Each package contains two boards measuring 20 x 20 x 1 inches (50.8 x 50.8 x 2.54 cm). The material can be easily cut, drilled, or machined to fit specific requirements:

• Simple cutting with standard tools or a hacksaw
• Easy drilling using electric or manual tools
• Compatibility with milling and grinding for precision shaping

The ceramic fiber board serves multiple purposes across various high-temperature environments:

• Industrial kiln linings for improved energy efficiency
• Fireplace interiors for enhanced combustion and reduced emissions
• Pizza oven insulation for uniform heat distribution
• Foundry furnace linings to optimize heating processes
• Wood and pellet stove components for better combustion
• Backup insulation for refractory bricks and castables
• Thermal shielding and fire protection applications

Rigorous testing confirms the board's reliable performance:

• Density: 20–24 lbs/ft³ (320–384 kg/m³)
• Compressive Strength: 78 PSI (538 kPa) at 25% deformation
• Maximum Permanent Linear Shrinkage: 3.5% after 24 hours at 2200°F (1204°C)
• Loss on Ignition: 4–7% at 1832°F (1000°C)

While offering excellent insulation properties, the ceramic fiber board has lower mechanical strength compared to refractory bricks and should be handled with care to avoid indentations.