Chemical plants have long faced harsh production environments, including high temperature, high humidity, and chemical corrosion. Traditional roofing materials are difficult to meet the durability and safety requirements of the park.
In order to ensure the long-term operation and safety of the plant, a chemical plant in Shandong selected Himei waterproof tiles for large-scale application in the new plant project to ensure the long-term use of the plant.
Himei waterproof tiles are made of TPO waterproof coil composite steel plates, and a weather-resistant anti-corrosion layer is added on the back to resist chemical erosion while maintaining stable waterproof performance under changing climatic conditions.
Various corrosive substances will be released first during the production process of the reinforced area. Traditional roofing materials are easily corroded, resulting in increased maintenance frequency.
The anti-corrosion layer on the back of Himei waterproof tiles has extremely strong chemical corrosion resistance, can resist acid corrosion, alkali and other substances for a long time, extend the service life of the roof, and reduce the maintenance cost of the park.
During construction, the waterproof tiles are connected together by hot welding. This connection method makes the waterproof tiles form a seamless and integrated waterproof layer. Ensure that the entire roof forms an integral waterproof covering layer to ensure the waterproof effect. The effective waterproof effect exceeds 25 years.
Himei waterproof tiles are made of TPO waterproof coil composite steel plate, and a weather-resistant anti-corrosion layer is added on the back, which can resist chemical erosion and maintain stable waterproof performance under changing climatic conditions.
The tpo coil on the surface of Himei waterproof tiles can resist the erosion of ultraviolet rays, wind and rain, and maintain its beauty and functionality for a long time.
In addition, Himei waterproof tiles also have good impact resistance, which can effectively alleviate the impact of severe weather such as hail and strong winds on the building roof, reducing the risk of roof damage.