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Horse Construction offers full range of structural strengthening materials with technical supports, documentation supports, products supports, project supports.
Externally-Bonded Steel Plates VS Carbon Fiber Strips
How do externally-bonded steel plates compare to carbon fiber strips in terms of durability?
Externally-bonded steel plates and carbon fiber strips are both effective materials for structural strengthening, but they differ in terms of durability. Here are some key differences between these two materials:
Durability: Steel plates are generally considered to be more durable than carbon fiber strips. They are stronger and more resistant to damage from impact, abrasion, and other forms of wear and tear. However, steel plates are susceptible to corrosion, which can reduce their durability over time.
Weight: Carbon fiber strips are much lighter than steel plates, which can make them easier to handle and install. This can be an advantage in applications where weight is a concern, such as in buildings or bridges.
Cost: Steel plates are generally less expensive than carbon fiber strips, although the total cost will depend on the specific application and the size and thickness of the plates or strips.
Bonding: Both steel plates and carbon fiber strips are bonded to the existing structure using an adhesive. However, the adhesive used for steel plates is typically more difficult to apply and requires more specialized equipment than the adhesive used for carbon fiber strips.
Aesthetics: Carbon fiber strips are generally more aesthetically pleasing than steel plates, as they are thinner and more flexible, and can be painted to match the existing structure. Steel plates may be more visible and may require additional finishing work to blend in with the surrounding structure.
What are some common applications for externally-bonded steel plates and carbon fiber strips?
Externally-bonded steel plates and carbon fiber strips are commonly used in a variety of applications for structural strengthening, including:
Buildings: Both steel plates and carbon fiber strips can be used to strengthen buildings that have been damaged by seismic activity, weathering, or other forms of wear and tear. They can be applied to columns, beams, walls, and other structural elements to increase their load-carrying capacity and improve their resistance to deformation.
Bridges: Steel plates and carbon fiber strips are commonly used to strengthen bridges that have been damaged by heavy traffic, corrosion, or other forms of wear and tear. They can be applied to the underside of the bridge deck or to the bridge supports to increase their load-carrying capacity and improve their durability.
Tunnels: Steel plates and carbon fiber strips can be used to strengthen tunnels that have been damaged by water infiltration, seismic activity, or other forms of wear and tear. They can be applied to the walls or ceiling of the tunnel to increase their load-carrying capacity and improve their resistance to deformation.
Industrial facilities: Steel plates and carbon fiber strips can be used to strengthen industrial facilities, such as manufacturing plants or power plants, that are subject to heavy loads, vibrations, or other forms of stress. They can be applied to structural elements, such as columns or beams, to improve their load-carrying capacity and resistance to deformation.
Historic structures: Steel plates and carbon fiber strips can be used to strengthen historic structures, such as monuments or buildings, while preserving their original appearance. They can be applied to structural elements, such as arches or walls, to increase their load-carrying capacity and improve their durability, without disrupting the original design.
You can find anything here you are in need of, have a trust trying on these products, you will find the big difference after that.
High strength carbon fiber reinforced polymer (CFRP) strip / laminate / plate for structural strengthening and concrete repair
Two-component epoxy modified epoxy structural strengthening adhesive for bonded steel plate to concrete
Modified epoxy resin structural perfusion adhesive, specifically for supporting adhesive bonded steel reinforcement