EWR fiber-cloth

Suitable for reinforcement, thermal insulation and protection of the hull elements of your vessel.
Roll width - 1,0-1,27 m.,
Density (g/m2) - 300 - 1000 g/m2
Oiler - silane.
Composite material properties:

• high density
• good dielectric
• thermal protection
• ecological
• not flammable or explosive
• good resistance to crushing

Glass Fiber in the Energy Sector

Glass fiber has become an indispensable material in the energy sector due to its unique combination of electrical insulation properties, heat resistance and durability. From traditional electrical insulation to innovative solutions in renewable energy, this material continues to expand its applications.

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Advantages of fiberglass in the energy sector

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• High electrical insulation properties — does not conduct electricity, which is critical for the safety of power equipment
• Heat resistance — withstands temperatures from -60 ° C to + 500 ° C without losing properties
• Corrosion resistance — not affected by moisture, chemicals and aggressive environments
• Mechanical strength — maintains integrity under vibrations and mechanical loads
• Durability — service life up to 30 years even in extreme conditions
• Environmentally friendly — does not emit harmful substances during operation

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Main areas of application

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• Electrical insulation
  Insulation of wires and cables
  Production of printed circuit boards for power equipment
  Insulation barriers in transformers and switchgear
  

• Thermal insulation
  Protection of thermal power plant pipelines
  Thermal insulation of power units and boilers
  Insulation of cryogenic equipment
  

• Renewable energy
  Wind turbine blades (up to 80 meters long)
  Frames of solar panels
  Waterproofing of tidal power plant components
  

• Equipment protection
  Transformer and switchboard enclosures
  EMI shields
  Insulation repair kits

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Industry prospects

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Fiberglass is becoming a key material for the energy of the future: in the coming years, its use is expected to increase in offshore wind farms (with blades up to 120 meters), hybrid solar-wind installations and hydrogen energy. Particular breakthroughs are predicted in the creation of "smart" insulation with the function of monitoring the condition of equipment, as well as in the development of environmentally friendly recycling technologies that allow reuse of up to 90% of the material. These innovations will make fiberglass the basis for a safe and sustainable next-generation energy system.