FREEFLOW®

ADVANTAGES

  • Low thermal conductivity
  • Non combustible
  • Easy to install
  • Suitable for automated feeding of complex shapes
  • Environmentally friendly, free of organic binders
  • Resistant to most chemicals

Pourable Products

FREEFLOW® is a pourable microporous powder with very good thermal properties. The formulation is an opacified blend of pyrogenic silica. FREEFLOW® is suitable for filling complex shapes & cavities with demanding thermal specifications. It offers insulation solutions for applications where no other conventional insulation can be used.

FREEFLOW® has been recently improved by upgrading its formula. It now offers the same thermal performance at a reduced density, resulting in a lower installed cost.

Technical Data
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FREEFLOW®
Classification temperature°C
1000
Bulk densitykg/m3
220
Shrinkage@1000 °C – 24h full soak, %
< 3
Thermal conductivity@600 °C mean, W/m.K
0.049

 

FREEFLOW®
Classification temperature°C
1000
Bulk densitykg/m3
220
Shrinkage@1000 °C – 24h full soak, %
< 3
Thermal conductivity@600 °C mean, W/m.K
0.049
Dimensions & Size Availability
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FREEFLOW® is a granular powder in which the granule size (bead size) can vary between 0.3 and 2.5mm.

The standard bag size is 400kg or 15kg.
FREEFLOW® is a granular powder in which the granule size (bead size) can vary between 0.3 and 2.5mm.

The standard bag size is 400kg or 15kg.
Producion Tolerances
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The tolerance on the density of FREEFLOW® is ± 30 kg/m³.
The tolerance on the density of FREEFLOW® is ± 30 kg/m³.
Working & Processing
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FREEFLOW® is a pourable microporous powder. To obtain the optimal thermal performance it is required to achieve the specified  “tap density”, for example by filling under vibration.
FREEFLOW® is a pourable microporous powder. To obtain the optimal thermal performance it is required to achieve the specified  “tap density”, for example by filling under vibration.
Typical Applications
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Microporous insulation offers an extremely low thermal conductivity, close to the lowest theoretically possible at high temperatures. Microporous materials are the preferred choice when a large temperature reduction is required within a limited space, or when strict heat loss or surface temperature requirements are specified.

  • Fuel cells (SOFC) & reformers
  • Exhaust systems
  • Filling of complex cavities
Microporous insulation offers an extremely low thermal conductivity, close to the lowest theoretically possible at high temperatures. Microporous materials are the preferred choice when a large temperature reduction is required within a limited space, or when strict heat loss or surface temperature requirements are specified.

  • Fuel cells (SOFC) & reformers
  • Exhaust systems
  • Filling of complex cavities
Documents
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Products Data Sheet

Products Data Sheet

Products Data Sheet

Products Data Sheet