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Master Bond adhesives
Thermal Ceramics 2600 RPC Shapes
Categories: Ceramic; Oxide; Silicon Oxide

Material Notes: RPC 2600 is an insulating material produced by blending alumina-silicate fibers and polycrystalline fibers with high purity silica binders. The alumina fibers form a matrix within the material, and give it high temperature capability. The high temperature capability is further enhanced by employing ammonia stabilized colloidal silica rather than sodium stabilized product. At elevated temperatures, residual sodium acts as a flux and reduces the refractories maximum use temperature.

Features:

  • No organic binders
  • Complex shape capability
  • Low thermal conductivity and minimal heat storage
  • High resistance to thermal shock and spalling
  • Low shrinkage
  • Light weight
  • Applications:

  • Bullnose tiles
  • Burner blocks
  • Combustion chamber construction
  • Diffusion furnaces
  • Flue and exhaust stack liners
  • Furnace components
  • General molten metal contact
  • Peep door frames and plugs
  • Heat shields
  • High temperature gaskets and seals
  • Hot tops for super alloy casting
  • Molten aluminum contact
  • Semiconductor processing equipment
  • Shapes for laboratory furnaces
  • Shapes in ammonia reformers
  • Information provided by Thermal Ceramics

    Data has not been recently verified. Please contact manufacturer for current information.

    Vendors:
    Available Properties
    • Density
    • Loss On Ignition
    • Hardness, Shore A, ASTM D2240
    • Modulus of Rupture, after 24 hour isothermal soak
    • Compressive Yield Strength, after 24 hour isothermal soak, at 5% deformation
    • Compressive Yield Strength, after 24 hour isothermal soak, at 10% deformation
    • Specific Heat Capacity
    • Thermal Conductivity, ASTM C210
    • Thermal Conductivity, ASTM C210
    • Thermal Conductivity, ASTM C210
    • Thermal Conductivity, ASTM C210
    • Melting Point
    • Maximum Service Temperature, Air
    • Shrinkage
    • Shrinkage
    • Shrinkage
    • Shrinkage
    • Shrinkage
    • Al2O3
    • SiO2
      
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