Our company specializes in reinforcing work across the nation, including carbon fiber cloth, carbon fiber panel, and aramid fiber cloth reinforcement, as well as reinforcement of steel structures and civil engineering structures. We are a high-tech comprehensive enterprise focusing on structural reinforcement, integrating reinforcement construction with material development. The company provides comprehensive reinforcement services for construction projects, transportation projects, and hydraulic projects, and undertakes reinforcement projects such as carbon fiber cloth, carbon fiber panel, aramid fiber cloth, steel structures, and civil engineering structures across the country.
Specific Construction Scope (1) Reinforcement Techniques: - Bonded reinforcement for beams and columns with increased cross-sections, column addition of haunches, horizontal bonded reinforcement. - Reinforcement for thickened walls. - Reinforcement for structural layer column heads. - Horizontal bonded reinforcement for beam extension. - Horizontal bonded reinforcement for beam and slab overhangs, vertical bonded reinforcement for columns on beams. - Bonded reinforcement for foundations and continuous walls. - Bonded reinforcement for precast beam repairs. - Bonded reinforcement for facade embeds, equipment fixation, etc. - Anchoring for rock, brick masonry, etc. (2) Steel Bonding Reinforcement Technique: This is a method of reinforcing structures by bonding steel plates to the surface of concrete components using structural adhesive, thereby enhancing the structural load-bearing and deformation capacity. Steel bonding reinforcement is a widely used and mature method with corresponding specifications. Features: It has features of bending resistance, tensile resistance, shear resistance, and compressive resistance; Application: Suitable for reinforcing positive and negative bending moments of beams and slabs, shear-bearing capacity reinforcement of beams, which can directly increase the load-bearing capacity. Carbon Fiber Reinforcement: This involves bonding carbon fiber materials to the surface of concrete components using matching adhesive materials. Features: It does not increase the structural dimensions or weight, enhances the bending resistance of components, improves the shear resistance, extends service life, increases load, and repairs cracks. Application: Suitable for reinforcing the bending-bearing capacity of beams and slabs; load-bearing capacity reinforcement of columns, and seismic reinforcement of structures. (3) Carbon Fiber Reinforcement Technique: Carbon fiber bonding involves粘贴 high-strength carbon fiber fabrics to the surface of the reinforced object using structural adhesive. Features: It is lightweight, high-strength, high-elasticity, corrosion-resistant, easy to construct, and not limited by the component's shape. Mainly applicable for reinforcing and strengthening beams, slabs, columns, and walls of buildings; structural reinforcement of bridges, bridge piers, bridge decks, tunnels, chimneys, and corrosion-resistant reinforcement for beach buildings.

Benxi reinforced carbon fiber cloth, 300g premium grade carbon fiber cloth wholesale price

Carbon Fiber Reinforcement Highlights: The product weight of carbon fiber cloth is relatively low. When used, as it wraps around the exterior surface of the component, it does not impose a heavy burden on the component, nor does it affect the overall appearance, even enhancing it. Carbon fiber cloth reinforcement can also be applied in multiple layers. This flexible application method maximizes the performance of the carbon cloth, with a straightforward process.


Carbon fiber fabric (aramid fabric) reinforced repair structure technology is a new type of structural reinforcement technique, which involves bonding carbon fiber fabric (aramid fabric) to the concrete surface using resin-based adhesive materials to achieve reinforcement and strengthening of the structure and components. Research on the use of carbon fiber materials (aramid fabric) in concrete structure reinforcement and repair began in the 1980s in developed regions like the U.S. and Japan, with China starting much later. In recent years, with the reduction in the price of carbon fiber, it has also been extensively used for reinforcement in buildings, bridges, subways, and other applications. Due to its high strength, light weight, durability, and excellent workability, it has proven effective in reinforcing piers, floor slabs, beams and columns, and chimneys. It has found wide application in numerous fields including automotive, environmental engineering, chemical industry, energy, transportation, construction, electronics, and sports equipment.

Our company will adhere to the quality policy of "building a project, establishing a reputation, securing a market, and forging an engineering masterpiece." We will assign a project management team with high technical qualifications and scientific management to carry out construction. Utilizing advanced construction equipment and excellent construction techniques, we will optimize the construction plan. Construction will be organized strictly in accordance with local technical regulations, equipped with ample machinery and equipment, and staffed with disciplined and technically proficient work teams to enhance the company's work quality and efficiency, ensuring both the project timeline and quality.