Roofing Waterproofing Features

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

Design Principles for Waterproof Reinforcement Construction Plan

1. Inverted waterproof design ensures effective waterproofing. We select reactive membrane sheets that can react and seal with concrete, achieving a sealed waterproofing without leakage, significantly enhancing safety and reliability.
2. The combination of flexibility and rigidity; the waterproofing layer must match the base layer's characteristics.
3. Outsourced waterproofing achieves the effect of flexibility and sealing: safeguarding the safety of concrete structures from water damage侵蚀.
4. Flexibility: Bi-modal creep resistance to cracking, preventing rigid "cracking" and leakage.
5. Sealing: Effective sealing treatment has been applied to roof junction areas such as cracks, wall corner roots, and drain pipes using matching joint waterproofing sealant; preventing "leakage" that could lead to the failure of the entire system.

Floor Waterproofing and Insulation Construction Diagram

The floor slab structure cracks and leaks due to uneven settlement caused by compaction of the foundation under additional stress. The cracks are reinforced with non-curing rubber waterproofing, which has excellent flexibility, suitable for base deformation. It combats cracks and complements the substrate through physical adsorption to form a flexible waterproofing layer that bonds firmly, eliminating stress caused by base changes. This layer provides sufficient tensile strength to effectively resist the destruction of external stresses.