by Due to the guidance of these policies, research in related fields has been continuously deepened in recent years, resulting in a series of theoretical and practical achievements for concrete reinforcement technology.
In addition to traditional reinforcement methods such as pasting steel plates, increasing cross-section reinforcement, and external prestressing reinforcement, most scholars have further improved on the basis of traditional methods, considering the use of fiber-reinforced composite materials (FRP), high-performance concrete materials, and some new connection arrangements to significantly enhance the stiffness, bearing capacity, and durability of concrete structures.
Researchers have revealed through experiments and theoretical analysis the significant effects of these materials in improving the shear, bending, and compressive strength of structures, providing a scientific basis for the development of reinforcement technology.
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