They meet all international norms of safety, environment and pollution control for building products. Available in a range of colours, these pre-painted sheets require low maintenance and resist the impact of weather, sunshine, UV rays, algae and chemical corrosion. These imported fibers replace asbestos and give the roof high impact resistance. Everest Hi Tech provides high sound insulation from rain and thermal insulation from heat, saving you huge costs of additional insulation.

  • Non  Asbestos: Everest  Hi-Tech Roofing  does  not contain any asbestos and  therefore conforms  to international   norms  of   multinational   corporations and  importers.
  • Low maintenance costs: Everest Hi-Tech Roofing has a high IMOR (work  of  fracture)  i.e.,  energy absorbed in  bending  of  sheet  and  impact  resistance makes it more flexible, thus reducing damage during  handling  and  exposure  to  dynamic  loads.
  • Durability: Everest Hi-Tech Roofing does not corrode and is dimensionally  stable  (will  not  dent  or deform).  It  is  resistant  to  atmospheric  (saline and  acid  rain  environments)  and  chemical corrosion.
  • Economical: Everest Hi-Tech Roofing is significantly more economical than alternatives like colour coated metals, aluminum roofing, etc..
  • Weather Resistance:  Everest Hi-Tech Roofing protects from weather elements i.e. sun (heat), rain and wind.  Being cement-based,  it  gains strength with age and weathering.
  • Aesthetics: Everest Hi-Tech Roofing is  available  in different  colours using  a  specially developed and tropicalized pure acrylic paint on the top surface  which  ensures  no  algae  or  fungal growth.  Additionally it has excellent  UV resistance  thus  ensuring  uniformity  and longevity of  the  colour  i.e.  long-term  aesthetics.Also available in natural stone grey without acrylic paint.
  • Protection and comfort:  Everest Hi-Tech is a better alternative in comparison  to  other roofing products.

The Ultimate Choice

  • Sound insulation of 26 Decibels when tested in a critical  frequency of 100-3150 Hz
  • Low thermal conductivity of  0.22 W/mK, thus  reducing heat buildup.
  • Non combustible
  • Excellent condensation control