Fiber-reinforced waterproofing coating is a high-performance waterproofing material. Below is a detailed introduction to it:

I. Definition and Principle

Fiberglass-reinforced waterproofing coatings are formulated with high molecular polymer as the base material, enhanced with fiber reinforcement through a special process (such as glass fiber, non-woven fabric, or high molecular fiber). These fiber materials significantly improve the bond strength between the coating and the substrate, forming a dense waterproofing film that effectively prevents water penetration.

Section II: Key Features

High strength and adhesion: The addition of fibers significantly enhances the adhesive and crack resistance of the coating, allowing it to bond tightly with the substrate, effectively preventing water leakage caused by substrate cracking.

Wide temperature adaptability: The product boasts a broad temperature adaptability range, maintaining stable waterproof performance in extreme conditions (-40°C to +100°C) without cracking or softening due to temperature changes.

Excellent durability: The high-strength waterproof film formed after the coating cures offers excellent resistance to wear, corrosion, and UV aging, providing long-term protection against external environmental factors.

Easy and Quick Construction: Can be applied by spraying, brushing, and other methods, with a fast drying time, reducing the construction cycle and improving project efficiency.

Fatigue Resistance and Structural Adaptability: The addition of fibers enhances the coating's toughness, allowing it to maintain excellent waterproofing performance even under stress changes caused by minor structural variations in buildings or ground settlement.

Section 3: Application Fields

Fiber-reinforced waterproof coatings are widely used in various applications requiring waterproofing, including but not limited to:

Bridge Engineering: Includes waterproofing projects for highway bridges, urban overpasses, railway bridges, and bridge culverts, etc.

Petroleum & Chemical Industry: Such as oil tanks, saltwater tanks, electroplating tanks, offshore facilities, and cross-sea bridges, etc.

Infrastructure: Power plants, cooling towers, water intake projects, metal components, concrete structures, factory floors, etc.

IV. Construction Process

Surface Preparation: Thoroughly remove oil, dust, laitance, loose debris, and other impurities from the bridge deck surface to ensure a clean and dirt-free base. Then, repair any cracks, dents, or other defects on the surface.

Bottom Coating: Apply the waterproof coating evenly using a spray gun or spreader vehicle, ensuring no missed spots or accumulation. Lay the reinforcing fiber material before the first coat is fully dry, making sure it is tightly bonded with the waterproof coating. Once the bottom coating and reinforcing fiber are completely dry, apply the second coat (or more, as per design specifications) of waterproof coating.

Bridge Deck Maintenance: Close the road before the paint dries to prevent traffic from driving over or walking on it, until the asphalt paving work is completed.

V. Cautionary Notes

Construction Environment: Ensure the construction environment meets the application requirements of the paint, avoiding construction under extreme weather conditions.

Personal Protection: Appropriate protective gear, such as safety goggles, should be worn during construction to ensure the safety of workers.

In summary, fiber-reinforced waterproof coatings have been widely used in various fields due to their high strength, broad temperature adaptability, excellent durability, and ease of application.