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Master Bond adhesives
Morgan Advanced Ceramics WDS® Multiflex® ST Porextherm
Categories: Ceramic; Oxide; Silicon Oxide

Material Notes: Engineered 3D flexible microporous insulation products offering extremely low and flat thermal conductivity values in a wide temperature range, hence providing outstanding insulating performances which are up to five times better than any other conventional insulator, together with excellent thermal tability up to 1050°C (1922°F). WDS® MultiFlex® uses WDS® Technology, which is the benchmark in microporous know-how: it is today the only available technology that allows to perfectly and consistently control and engineer both the texture and the distribution of the microporous mineral matrix ore in order to obtain superior thermal characteristics but with improved mechanical properties overall. WDS® MultiFlex® core is a composition of reinforced blend of opacified premium grade inorganic silicates available in different property formulations; this homogeneous mineral matrix is then covered with an outer envelope which may be either glass (ST grade) or stabilized amorphous silica (HT grade) cloths to enable fast and clean manipulation; the stitched grid guarantees the necessary flexibility and twisting properties. WDS® super-insulation is the definitive answer to any of your most demanding thermal insulation concerns when seeking for space and weight reduction together with effective energy savings in a very wide temperature spectrum. WDS® MultiFlex® complies with the standard specification for microporous insulation ASTM C1676. WDS® MultiFlex® products are non-flammable in accordance to DIN EN 13501-1, Euroclass

Information provided by Morgan Advanced Materials

Key Words: Porextherm
Available Properties
  • Density, nominal
  • Compressive Strength, ASTM C165, room temperature
  • Specific Heat Capacity
  • Thermal Conductivity, ASTM C177
  • Thermal Conductivity, ASTM C177
  • Thermal Conductivity, ASTM C177
  • Thermal Conductivity, ASTM C177
  • Shrinkage, temperature applied to one side
  • Shrinkage, temperature applied to all side
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