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Composite reinforcement
Fiberglass or basalt reinforcement is used to replace steel reinforcement in civil and industrial construction. Produced in accordance with GOST 31938-2022

What properties does composite reinforcement have?

Corrosion and chemical resistance
No fear of chemical impact and moisture, which affects the durability of the use of materials, and the possibility of their use at any time of the year
The tensile strength of composite rods and mesh is 3 times higher than that of a similar steel products
Tensile strength
Does not form "thermal bridges", which improves the thermal insulation parameters of the construction site
Low thermal conductivity
Even in severe frosts, composite reinforcement does not lose its properties. The temperature threshold for use ranges from -70°С to +100°С
Heat resistance
The lack of need for welding simplifies the installation - with wire-tying reinforcement, any worker can handle it with a minimum set of tools
Easy to install
Dielectric, no radio interference
Does not conduct electricity and does not interfere with the spread of the signal of mobile phones and the Internet
Comparison of characteristics of composite and steel reinforcement
Steel reinforcement A-III (А400 - 25G2S)
Composite reinforcement (fiberglass)
Characteristics of materials
1500
LIMIT OF DURABILITY UNDER TENSION, MPA

390
210000
ELASTIC MODULUS, MPA

55000
25
RELATIVE EXTENSION, %

2,2
46
THERMAL CONDUCTIVITY COEFFICIENT

0,35
13-15
LINEAR EPANSION RATIO

9-12
7850
DENSITY, KG/M3

1900
Heat-conductive
THERMAL CONDUCTIVITY
Non-heat-conductive
Electroconductive
ELECTROCONDUCTIVITY
Dielectric
6-80
EXTRUSION PROFILES

4-30
11,7 m
LENGTH OF DIMENSIONAL RODS UP TO
Any length on request
Low
CORROSION AND CHEMICAL RESISTANCE
Does not rust, resistant to aggressive environments
Steel reinforcement
Composite fiberglass reinforcement
More advantages of composites over metals
Composite reinforcement is cheaper than metal reinforcement and its high strength makes it possible to replace a steel analogue with a large diameter
Reduced material consumption
Reduced transportation costs
Thanks to the compact form of packaging it is much easier to transport such a reinforcement - you can use the trunk of any car
Expansion coefficient like concrete's
There is no imbalance in the reaction of concrete and composite reinforcement with temperature changes - this helps to protect concrete structures from cracking
Low relative density
Having a low weight, composite reinforcement does not create unnecessary loads on the main elements of the structure - it can be used where it is impossible to use metal
Energy efficiency
Heating costs for a building constructed using composites are lower compared to steel reinforcement
Waste-free utilization
The flexibility of the reinforcement makes it possible to reduce the amount of waste down to "No Waste", while waste is certainly present when using metal
Get product samples
We're confident in the quality of our products, because we comply with all legal requirements for composite building materials. You can also make sure by ordering samples with delivery
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