Common traditional thermal insulation materials like petrochemical organic materials such as EPS, PU, or inorganic fiber structures like fiberglass, rock wool, perlite, etc., have a lifespan of only a few years before the insulation layer fails. This is mainly due to the materials gradually absorbing moisture from the air over time, leading to the insulation layer becoming damp and ineffective. Thermal insulation materials can be classified based on their form, such as fibrous, cellular, bubble, and layered types. Traditional thermal insulation materials primarily focus on increasing the gas phase void ratio, reducing thermal conductivity, and reducing the conduction coefficient.
Fibrous insulation materials require thicker coatings to enhance convective and radiative heat transfer in the operating environment. On the other hand, profiled inorganic insulation materials require assembly construction, leading to issues such as numerous joints, aesthetic damage, poor waterproofing, and a short service life.
Our various advanced environmentally friendly thermal insulation materials are water-based, non-toxic, mold-resistant, acid-resistant, and alkali-resistant. They effectively reduce surface temperatures, with multiple successful cases demonstrating post-construction surface temperatures lower than ambient temperatures. These eco-friendly thermal insulation materials achieve low VOC emissions, are environmentally friendly, and offer effective thermal insulation effects. They can save approximately 30% to 40% of energy costs, reduce electricity consumption by up to 50%, advocate for seamless insulation layers, provide excellent waterproofing, significantly reduce heat loss, and offer better decorative properties compared to traditional products.