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Composite glass fiber reinforcement is one of the most popular and modern building materials worldwide. They are also known as FRP, GFRP, Composite Rebar, or Fiberglass Rebar.
We produce fiberglass reinforcing bars with diameters from d 4mm to 32mm. Diameters up to 12mm are delivered in coils of different lengths. Diameters from 12mm to 32mm are produced in any size.

GFRP REBAR

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RELIABLE REINFORCEMENT WITHOUT STEEL:

Why glass fiber reinforcement is the construction material of the future?

RESISTANCE TO THE BREAKING

of composite reinforcement is twice as better as that of A-III class steel reinforcement with the same diameter. Correspondingly, its calculated surface can be twice as smaller as that of steel reinforcement.

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RESISTANCE TO CORROSION

It does not destroy concrete. Steady for corrosion and aggressive environments.

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THERMAL CONDUCTIVITY

of composite reinforcement is 100 times lower than that of steel reinforcement; practically, it does not conduct heat.

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DURABLE AND ECOLOGICAL

Composite reinforcement extends the period of use of a structure 2-3 times more than steel reinforcement, especially under the influence of aggressive environments. The forecast period of use – min. 80 years.

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HIGH SAFETY AND FUNCTIONALITY

There is no electric or electromagnetic conductivity, magnetism, or disruption of sensitive electronic installations. It is transparent to radar and radio waves.

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LIGHTWEIGHT

The weight of the GFRP rebar is 10 times less than that of the steel rebar. So, it reduces transportation costs.

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HIGH STRENGTH IN A WIDE RANGE OF TEMPERATURES

It is resistant to a wide range of temperature operating conditions, from -70 С to +100.

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SAVINGS ON A PROJECT

Considering the equal-strength replacement of rebar, fiberglass rebar replaces steel rebar with a smaller diameter, resulting in savings of up to 50%.

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SAVINGS ON TRANSPORTATION

Due to its lightweight, fiberglass rebar is much cheaper to transport. One truck can fit up to 500 km of rebar.

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THE FLEXIBILITY OF SIZES

The length of the composite rebar in coils can be 50-200m but can be easily cut off to the desired length.

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THESE BENEFITS MAKE GFRP AN ATTRACTIVE OPTION FOR A WIDE RANGE OF APPLICATIONS, FROM CONSTRUCTION TO MARINE AND INDUSTRIAL USES, OFFERING A VERSATILE AND EFFICIENT MATERIAL SOLUTION.

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APPLICATION

ROADS AND REPAIRS

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Highway, private roads, reinforcement of roadbed, dowel bars.

BRIDGE BUILDING

CONSTRUCTIONS

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Bridge pillar, bridge foundation, concrete pavement, retaining wall, dams.

Urban municipal structures, sewer collection structures, stormwater drain channels, retaining walls, and floor pavements.

MARINE STRUCTURES

RESIDENTIAL & CIVIL ENGINEERING

AGRICULTURE

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Ports, jetties, seawalls, water breaks, coastline structures, and buildings near water systems.

Footing, basements, retaining walls, compound walls, plinth slab, and beams.

Gardening infrastructure, plant maintaining structures, greenhouses, reinforcement of warehouses, landscape design.

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SUBSTITUTION VARIANTS:

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Equal in strength fiberglass rebar that can replace steel rebar with a smaller diameter

USE OF SAND COATING TO IMPROVE BONDING BETWEEN GFRP BARS AND CONCRETE

Using fiber-reinforced polymers (GFRP) as reinforcement in concrete structures is a possible alternative to steel when corrosion happens.
GFRP bars have many remarkable advantages over steel reinforcement, including a high strength-to-weight ratio, high durability, easier handling due to their lightweight, high tensile strength, excellent fatigue characteristics, and electromagnetic neutrality.
The sand coating enhances anti-corrosiveness and protection from aggressive environments, which are typical for concrete and construction mixes. It is used extensively in the construction industry and in the construction of roads.
Furthermore, GFRP rebar with send coating is utilized to create foundation structures, floors, and frames in industrial and residential buildings.

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REBARS COATED WITH SAND LEAD TO STRONGER CHEMICAL ADHESION WITH CONCRETE

The density of an innovative product is 2,025 T/m3

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The tensile strength is more than 1300 MPA.

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The modulus of elasticity of the rods made of composite materials is 50.5 GPA under the action of tensile forces

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