Structural strengthening refers to the process of improving the load-carrying capacity of existing structures, such as buildings, bridges, and other infrastructure, to meet the requirements of modern codes and standards, or to extend their service life. This is typically done by adding new structural elements or reinforcing existing ones, such as columns, beams, slabs, walls, or foundations, using various materials and techniques, such as steel, concrete, composites, or fiber-reinforced polymers (FRP).
Structural strengthening may be required for various reasons, such as changes in occupancy or use, deterioration due to aging, corrosion, or environmental factors, damage from natural disasters or accidents, or new safety or performance requirements. The goal of structural strengthening is to ensure that the structure can withstand the expected loads and stresses, resist deformation and cracking, and maintain its integrity and stability over time.
The process of structural strengthening typically involves a detailed assessment of the existing structure, including its geometry, materials, and condition, as well as the expected loads and environmental conditions. Based on this assessment, a suitable strengthening strategy is developed, which may involve the use of external or internal reinforcement, as well as the modification of the structural system or the addition of new elements.
Structural strengthening is an important field in civil engineering, as it enables the preservation and reuse of existing structures, reduces the need for costly and disruptive demolition and replacement, and enhances the safety, durability, and sustainability of the built environment.
What are some common materials used for structural strengthening?
There are several materials that are commonly used for structural strengthening, including:
Steel: Steel is a popular material for structural strengthening due to its high strength, ductility, and durability. It is often used for external reinforcement, such as steel plates, angles, or channels, that are bolted or welded to the existing structure.
Concrete: Concrete can be used for both external and internal reinforcement, such as concrete jackets, overlays, or shotcrete, that provide additional strength and stiffness to the structure. It can also be used for post-tensioning, which involves applying high-strength steel cables or tendons to the structure and then tensioning them to increase the load-carrying capacity.
Fiber-reinforced polymers (FRP): FRP composites, such as carbon fiber, glass fiber, or aramid fiber, are lightweight, high-strength materials that are increasingly used for structural strengthening. They can be applied as external wraps or laminates, or as internal reinforcement using fiber-reinforced polymer bars or rods.
Timber: Timber can be used for internal reinforcement, such as adding new timber beams or columns to the existing structure, or for external reinforcement, such as laminated timber plates or beams that are bolted or glued to the structure.
Masonry: Masonry structures can be strengthened using methods such as grouting, where the voids in the masonry are filled with cementitious grout, or by adding new masonry walls or columns to the structure.
ภาษา: Thai
