Roofing Waterproofing Features

1. Wide temperature fluctuations, with high temperatures during the day and low temperatures at night, causing thermal expansion and contraction cycles, which can lead to structural cracking.
2. Reinforced concrete structures may crack and leak due to uneven settlement of the foundation caused by compaction under additional stress, leading to structural cracks in the floor.
3. Alkali-aggregate reaction, reinforcement corrosion, chloride ion effects, and harmful侵蚀 are all processes that occur under water conditions. The formation and progression of leakage cracks can adversely affect the load-bearing capacity and durability of the building structure.

Principles for Waterproof Reinforcement Construction Design

1. Featuring an inverted waterproof design, ensuring effective waterproofing. The reactive membrane materials chosen for their ability to seal and bond with concrete prevent water leakage, significantly enhancing safety and reliability.
2. A blend of firmness and flexibility; the waterproofing layer should match the base layer's characteristics.
3. Outsourced waterproofing achieves a flexible, sealed effect: safeguarding the "safety" of concrete structures from water damage侵蚀.
4. Flexibility: Binary creep resistance, preventing rigid "cracking" and leakage.
5. Sealing: Effective sealing treatments have been applied to roof junctions such as cracks, wall corners, drainage pipes, etc., using matching junction waterproofing sealant; preventing "water leakage" from causing the entire system to fail.

Floor waterproofing and heat-insulating construction diagram

Floor slab structure cracks and leaks due to uneven settlement of the foundation caused by compaction under additional stresses on the foundation. The cracks are reinforced with non-curing rubber waterproofing material, which possesses excellent flexibility, suitable for subgrade deformation. It counters the cracks in conjunction with the base surface through physical adsorption, forming a flexible waterproofing layer that bonds firmly. This eliminates stress generated by subgrade changes, providing the flexible waterproofing layer with sufficient tensile strength to effectively resist external stress damage.