REINFORCEMENT MESH

FIELDS OF APPLICATION

Introducing GFRP Mesh

In modern construction, GFRP mesh (Glass Fiber Reinforced Polymer mesh) represents an innovative and versatile solution. Its combination of corrosion resistance, lightweight design, and robust strength not only improves concrete quality but also streamlines construction processes, reduces maintenance costs, and extends the lifespan of buildings.     

Application of composite mesh

bridge

Reinforcement of concrete structures and mixed reinforced concrete structures

hospital

Structures located in coastal areas, airports, hospitals, military bases and more

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Special purpose objects (power plants)

electric-factory

Weight sensitive structures

road

Road industry (construction of bridges, roads, tunnels)

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Construction of agricultural structures

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Heat/cold sensitive environments (basements, patio decks)

warehouse

Civil projects (commercial & residential buildings, high rises)

Benefits of GFRP mesh

  • Corrosion Resistance. GFRP mesh will not rust, even in the harshest environments. Unlike steel mesh, FRP mesh ensures a longer lifespan and minimizes maintenance needs.
  • Highly Chemical Resistant. GFRP mesh resistant to salt ions, acids, chemicals, and the inherent alkalinity of concrete. This is important when you build concrete structures in coastal areas near seas, oceans, lakes and rivers.
  • Lightweight. GFRP rebar is 9 times lighter in weight than the equivalent strength of Steel rebar.
  • Strength. Fiberglass rebar has 3 times stronger tensile strength than steel. GFRP has substantially greater bond strength to concrete than steel which makes GFRP-reinforced concrete more resistant to cracking.

GFRP Mesh vs. Steel Mesh

Characteristics GFRP mesh Steel mesh
Diameter of the rod (wire), mm 2.5 4.0
Breaking strength, MPa 1300 570
Breaking tension of the rod, kgf 600 720
Coefficient of elongation, % 2.50 2.50
Coefficient of heat conductivity, W/(m*°C) 0.46 56.00
Electric conductivity Non-conductive Conductive
Thermal conductivity Low High
Corrosion resistance High (unaffected by water) Low (without expensive galvanisation treatment bars of steel are subject to oxidation)
Heavy load resistance No permanent deformation Can be permanently deformed
Magnetic characteristics Does not magnetize Susceptible to
Costs Lower manufacturing costs, maintenance costs, and transportation expenses (related to lightweight) Lower material costs but higher overall costs of production, transportation, installation, and technical maintenance
Grid Cell Production Diameter Weight, kg/SQMT
50 X 50 Ø 4 0.78
100 X 100 Ø 4-6 0,41-1,11
150 X 150 Ø 4-6 0,28-0,7
200 X 200 Ø 4-6 0,2-0,54

Advantages of using GFRP mesh

  • Reduction of rebar scrap
  • Easily cut and machined
  • Easy and Rapid Installation time
  • Lower transportation & storage costs
  • Reduced whole-life project costs

GFRP mesh represents an evolution of steel mesh rebar and makes the GFRP composite technology applicable in construction in practically every of its construction. Composite reinforcement mesh is sustainable and shows prevailing results. The use of FRP mesh in various construction projects not only enhances structural integrity but also opens new possibilities for innovative design and more efficient construction practices.

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