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Master Bond adhesives

Thermal Ceramics Superwool 607 Pyro-Fold and Pyro-Stack Modules
Categories: Ceramic; Oxide; Silicon Oxide

Material Notes: Superwool Pyro-Fold modules are accordion fold blocks used for lining industrial furnaces.

Superwool Pyro-Stack modules are similar to the Pyro-Fold modules with the blanket cut and stacked edge-grain rather than continuously folded.

Superwool, CMS wools are uniquely designed from pure raw materials (Calcium-Magnesium-Silicate), and specially processed to offer excellent performance in high-temperature applications. Superwool offers an alternative to traditional solutions due to its unique properties of high refractoriness and excellent non-wetting characteristics to applications requiring direct contact with molten aluminum. These light weight wools are resistant to thermal shock, provide low thermal conductivity and low heat storage combined with their enhanced solubility in body fluids. Superwool modules are available in a variety of attachment systems that utilize 316 stainless steel yoke and support tubes to meet most installation needs.

Superwool provides stability and resistance to chemical attack. Exceptions include hydrofluoric acid, phosphoric acid and strong alkalis (i.e. NaOH, KOH). Superwool is unaffected by incidental spills of oil or water. Thermal and physical properties are restored after drying.

Features:

  • Accordion style construction or edge-grain
  • Choice of available attachment systems
  • Non-wetting to molten aluminum
  • Low biopersistence
  • Thermal stability
  • Low heat storage
  • Flexible and resilient
  • Immune to thermal shock
  • Excellent thermal insulating performance
  • Based on patented technology
  • Applications:

  • Homogenizing furnaces
  • Process heaters
  • Ceramic kiln
  • Annealing furnace
  • Heat treating furnace
  • Thermal oxidizers
  • Information provided by Thermal Ceramics

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

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    Physical PropertiesMetricEnglishComments
    Density 0.128 g/cc0.00462 lb/in³Available in multiple densities
     0.149 g/cc0.00538 lb/in³Available in multiple densities
     0.171 g/cc0.00618 lb/in³Available in multiple densities
     
    Thermal PropertiesMetricEnglishComments
    Thermal Conductivity  0.0720 W/m-K
    @Temperature 260 °C
    0.500 BTU-in/hr-ft²-°F
    @Temperature 500 °F
    9.3 pcf
     0.0728 W/m-K
    @Temperature 260 °C
    0.505 BTU-in/hr-ft²-°F
    @Temperature 500 °F
    8 pcf; ASTM C201
     0.1621 W/m-K
    @Temperature 538 °C
    1.125 BTU-in/hr-ft²-°F
    @Temperature 1000 °F
    9.3 pcf; ASTM C201
     0.1708 W/m-K
    @Temperature 538 °C
    1.185 BTU-in/hr-ft²-°F
    @Temperature 1000 °F
    8 pcf; ASTM C201
     0.2973 W/m-K
    @Temperature 816 °C
    2.063 BTU-in/hr-ft²-°F
    @Temperature 1500 °F
    9.3 pcf; ASTM C201
     0.3134 W/m-K
    @Temperature 816 °C
    2.175 BTU-in/hr-ft²-°F
    @Temperature 1500 °F
    8 pcf; ASTM C201
     0.3859 W/m-K
    @Temperature 982 °C
    2.678 BTU-in/hr-ft²-°F
    @Temperature 1800 °F
    9.3 pcf; ASTM C201
     0.4075 W/m-K
    @Temperature 1000 °C
    2.828 BTU-in/hr-ft²-°F
    @Temperature 1832 °F
    8 pcf; ASTM C201
    Melting Point 1275 °C2327 °F
    Maximum Service Temperature, Air 1000 °C1832 °F
     
    Component Elements PropertiesMetricEnglishComments
    CaO 25 - 35 %25 - 35 %
    MgO 4.0 - 7.0 %4.0 - 7.0 %
    Other 1.0 %1.0 %
    SiO2 60 - 70 %60 - 70 %
     
    Descriptive Properties
    Alumina Contenttraces

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    CTHERM296 / 2616

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