Arvit Fibreglass Reinforced Plastic Bars

Fibreglass Reinforced Plastic Bars (polymer bars reinforced with continuous fibreglass) used for reinforcing concrete structures are made of bars based on a bundle of fibreglass roving coupled using a polymer compound.

Arvit Fibreglass Reinforced Plastic Bars are designed for using in concrete structures with pre-stressed and non-stressed reinforcement instead of traditional steel bars.


Product Range and Prices

 Arvit Fibreglass Reinforced Plastic Bars are available in diameters from 4 mm to 20 mm. Reinforcing bars are manufactured in the form of bars of any length. Different scopes of supplies may be offered depending on the diameter of the reinforcing bars. Fibreglass Reinforced Plastic Bars from 4 to 12 mm are usually sold in coils from 50 to 200 m. Reinforcing bars of any length from 4 to 20 m are available upon the request.


Properties of Arvit Fibreglass Reinforced Plastic Bars

The properties of Fibreglass Reinforced Plastic Bars should be presented for the consumers showing two perspectives - the positive properties of the Fibreglass Reinforced Plastic Bars distinguishing them from traditional steel bars, and negative properties of steel bars, which are irrelevant to the Fibreglass Reinforced Plastic Bars. Moreover, taking into account different designs, different properties will determine the priority of its application.


Comparative characteristics of Arvit Fibreglass Reinforced Plastic Bars

 Fibreglass Reinforced Plastic Bars are intended to replace steel bars in well-known concrete structures of the facilities where the risk of corrosion is critical and may lead to the concrete destruction. Selection of the reinforcing bars shall be based on the characteristics of equal-strength replacing material, which requires minimal changes in the structural design.


Arvit Fibreglass Mesh

Arvit Fibreglass Mesh has the following benefits:

  • Breaking strength of more than 1500 MPa;
  • It is not subject to corrosion and decomposition, It is resistant to aggressive environment;
  • Its low modulus of elasticity allows dampening vibration quickly and without any consequences; 
  • It is dielectric and radiolucent which ensures wide opportunities to use wireless communication technologies in any part of the building;