BASALT COMPOSITE REINFORCEMENT

Информация

Basalt composite reinforcement is a construction material used to reinforce concrete structures. It is made of basalt fiber and is much stronger and more durable than steel.

Basalt composite rebar has the same coefficient of thermal expansion as concrete and is widely used in the following industries:

  1. Construction of bridges, roads, tunnels and other engineering structures;
  2. Reinforcing concrete and other building materials;
  3. Manufacturing of composite materials;
  4. Hydraulic engineering industry;
  5. Manufacture of transportation vehicles;
  6. Agriculture;
  7. Architecture.

The main advantages of basalt composite reinforcement are:

  • High strength and resistance to rupture;
  • Resistance to corrosion and aggressive chemicals;
  • Environmental safety, as it does not contain harmful chemical compounds;
  • Lightness and ease of use, as basalt composite reinforcement weighs much less than traditional materials;
  • Durability and cost-effectiveness, as basalt composite reinforcement is highly resistant to corrosion and does not require regular replacement.
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We offer to order basalt reinforcement in Tashkent. We provide impeccable product quality. Customers are provided with mutually beneficial terms of delivery. The proposed cost of basalt rebar is competitive for the market in Uzbekistan and other countries of Central Asia. Check out the description of the building material presented in this category.

Basalt Fiber Rebar: General Information

Basalt composite rebar is a product of processing basalt rocks, which are melted and converted into thin fibers. These fibers are held together with special resins to form strong and durable rods. Basalt rebar has a high level of corrosion resistance, which makes it an ideal solution for use in corrosive environments, such as concrete structures exposed to moisture and chemicals.

Advantages of basalt rebar

The main advantage of basalt fiber rebar is corrosion resistance. Unlike steel counterparts, which are destroyed over time under the influence of moisture and aggressive substances, basalt products retain their properties throughout the entire service life of the structure. In addition, basalt rebar has a number of other important advantages:

  • Ease. Basalt rebar is several times lighter than steel, which simplifies its transportation and installation.
  • High strength. With its low weight, the material has high tensile strength, which makes it a reliable element for reinforcing structures.
  • Low thermal conductivity. This indicator is important for structures that are subject to temperature changes, since the reinforcement does not create "cold bridges".
  • Chemical durability. Basalt composite rebar does not react to alkaline and acidic environments, which is especially useful when building in aggressive conditions.
  • Ecological compatibility. The production of these products has a lower environmental impact compared to steel mining and processing.

These characteristics make basalt rebar the preferred choice for the construction of facilities with increased requirements for durability and corrosion resistance.

Comparison with analogues made of other materials

Basalt rebar compares favorably with steel and composite analogues made of fiberglass. For example, fiberglass reinforcement has lower strength and is sensitive to mechanical damage. Basalt rebar has greater wear resistance and resistance to ultraviolet rays.

Steel rebar, although it retains its popularity due to its availability and traditional application, is gradually losing ground. Its weight and susceptibility to corrosion make it a less cost-effective option for projects that require high stability and low load-bearing loads.

Construction applications

Due to its unique properties, basalt reinforcement is widely used in construction, where it is used for:

  • strengthening the foundations of residential and industrial buildings;
  • creation of structures with increased corrosion resistance;
  • reinforcement of road and airfield surfaces;
  • reinforcements of coastal and underwater structures exposed to aggressive environments.

This material not only improves the durability of structures, but also helps to reduce operating and maintenance costs due to its high resistance to external factors.

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