Fiberglass Reinforced Plastic (F.R.P.) Sheets are manufactured by reinforcing Un-Saturated Polyester Resin with Glass to obtain exceptional mechanical, thermal and electrical properties.
Glass Fiber imparts mechanical properties to the Sheets, whereas Resin determines its overall resistance to chemical corrosion, environmental de-gradation and wear ant tear.
F.R.P. sheets are mechanically strong, light weight, impact resistant and weather proof. In addition these are anti-corrosive, fire resistant, good insulation material and exhibit a high temperature resistance of up to 75 Degree Celsius.
F.R.P. Sheets are provided with a protective coating on both sides to guard against the de-generating effect of harmful U.V. Rays of sunlight. These Sheets are therefore longer lasting as compared to ordinary sheets for roofing and wall cladding applications.
F.R.P. Sheets are can be made largely transparent allowing natural light to pass through them to provide limited illumination to help save on precious power meant for lighting purposes.
F.R.P. Sheets serve as superior substitutes for ordinary plastic sheets for natural day lighting and highly durable. In fact these offer good value for money in the long term.
Today, F.R.P. Sheets are being widely used in Industrial Sheds, Warehouses, Commercial Buildings such as Hotels, Shopping Malls, Multiplexes etc. and Infrastructure Facilities such as Railway Stations, Airports, Ports, Metros and Flyovers for natural sky lighting.
F.R.P. Sheets offer an un-surpassed designing freedom and can be manufactured in a wide range of Corrugations and Profiles as per customer requirements.
A unique feature of F.R.P. Sheets is light diffusion. Unlike conventional Roofing Material such as Acrylic and Polycarbonate, F.R.P. Sheets help avoid a direct glare of sunlight and provide diffused lighting in the place of their installation. F.R.P. Sheets therefore help create a congenial work environment. In fact the Light Transmission Level of F.R.P. Sheets can be varied from as low as 35% to as high as 90%, depending on the proposed application and purpose of use.