Certification: | CE, BV/SGS |
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Surface: | Spiral |
Technique: | Drawn Wire |
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High Tensile Strength, very low relaxation.
1. Increased Structural Strength: Prestressed steel wire is designed to withstand high tension forces. By introducing pre-compression into the structure, it enhances the overall structural strength and load-bearing capacity. This allows for the construction of longer spans, thinner sections, and taller structures without compromising on stability and safety.
2. Improved Flexibility and Design Possibilities: Prestressing steel wire provides designers and engineers with greater flexibility in designing structures. The pre-compression introduced by the wire allows for the reduction or elimination of traditional reinforcement, resulting in slimmer and more aesthetically pleasing designs. It enables the creation of innovative architectural elements and the optimization of material usage.
3. Enhanced Durability: Prestressed concrete steel wire helps increase the durability of structures. By counteracting the tensile forces that develop over time, it minimizes the risk of cracking and deformation in concrete members. This extends the service life of the structure and reduces maintenance and repair costs over the long term.
4. Improved Resistance to Deflection: The pre-compression introduced by prestressed steel wire helps counteract deflection and deformation caused by external loads. It provides better control over the behavior of structures under various loading conditions, ensuring minimal sagging or bending. This is especially beneficial in applications where stringent deflection criteria need to be met.
5. Faster Construction and Reduced Construction Time: Prestressed steel wire allows for faster construction compared to conventional reinforcement methods. Pre-tensioning or post-tensioning techniques can be used to apply the necessary pre-compression, reducing the time required for formwork, concrete curing, and overall project completion. This acceleration in construction can result in cost savings and earlier occupancy or utilization of the structure.
6. Optimized Material Usage and Cost Efficiency: The use of prestressing steel wire enables the optimization of material usage, resulting in cost savings. By strategically placing the wires in areas subjected to high tensile stresses, it minimizes the need for additional reinforcement, reducing material quantities and associated costs.
7. Improved Crack Control: Prestressed steel wire helps control and limit crack widths in concrete structures. By introducing compressive stresses, it counteracts tensile stresses, reducing the likelihood and width of cracks. This is particularly important in structures where crack control is essential, such as water-retaining structures or structures exposed to aggressive environments.
Use
Prestressed steel wire can be used in prestressed concrete utility poles, prestressed concrete hollow slabs, prestressed concrete sleepers, express railway prestressed concrete sleeper plates, prestressed concrete water pipes and other components.
Prestressed concrete wire is primarily used in the construction industry for reinforcing concrete structures. It is a high-strength steel wire that is subjected to a process called prestressing, where it is placed under tension before being embedded in the concrete.
Prestressed concrete wire is commonly used in the construction of bridges, high-rise buildings, parking structures, and other large-scale infrastructure projects. It allows for the construction of longer and more slender members, reduces the number of support columns needed, and improves overall structural performance.
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