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Basalt fiber, as a novel inorganic, high-performance, and eco-friendly material, significantly enhances the mechanical properties, durability, and functionality of permeable concrete.

The basalt fiber braided sleeve, a high-performance material produced by melting and drawing natural basalt rock, has gained prominence in recent years across industries such as industrial protection, aerospace, and renewable energy. Its unique physicochemical properties and eco-friendly advantages offer new possibilities for upgrading traditional materials. This article explores the material’s core value through its scientific attributes and real-world applications.

Concrete, as a brittle material, commonly incorporates fibers to enhance its performance. The mechanism of basalt fiber in concrete primarily manifests in the following aspects .

Basalt fiber as a kind of green high-performance materials, in recent years in the field of environmental protection in the application of research continues to expand, its corrosion-resistant, high-temperature-resistant, biodegradable and other characteristics of the environmental protection technology to provide new solutions

Standardized Process for Composite Reinforcement Mesh Layout and Joint Placement 

The adhesion performance of basalt fiber reinforced cementitious materials (BFRC) and BFRP (basalt fiber reinforced polymer) tendons is the key to their synergistic work, which directly affects the practical application of composites in civil engineering.

Basalt fiber is a natural basalt as raw material made of high-performance inorganic fibers, with high strength, high temperature resistance, corrosion resistance, environmental protection and other characteristics, is regarded as the carbon fiber, glass fiber after the “third generation of fiber materials”.

Basalt Fiber Reinforced Polymer (BFRP) is a new type of high-performance composite material made from molten basalt rock and drawn into fibers. It exhibits properties such as high strength, corrosion resistance, lightweight, and environmental friendliness. In enhancing the seismic performance of buildings, BFRP is primarily used to improve structural strength, ductility, and energy dissipation capacity. 

Concrete structures are prone to brittle failure under sudden events like vehicle collisions, explosions, or earthquakes, while traditional concrete lacks sufficient energy absorption capacity under impact. Basalt fiber, with its high toughness and strong interfacial bonding, has become a core material for improving the impact resistance of concrete.

Research on the corrosion resistance of basalt fiber concrete shows that the mixing of appropriate amount of basalt fibers can significantly improve the corrosion resistance of concrete, which provides a new idea to solve the problem of durability deterioration caused by concrete corrosion.
Concrete corrosion is one of the important causes of its durability degradation, which brings huge economic losses every year. In order to reduce the economic losses caused by concrete corrosion, it is of great significance to study the corrosion resistance of basalt fiber concrete. At present, the relevant research is mainly through the concrete specimen immersed in different corrosion solutions to analyze the changes in its compressive strength, flexural strength and other properties.