Core Basic Design
Function Adaptation to Scenarios and Structures: Precisely designed for the structural characteristics of different application scenarios. For example, thread sealants are adapted to three-dimensional spiral gaps, focusing on penetration and locking; planar sealants are adapted to two-dimensional flange surfaces, focusing on full-contact surface filling. The core principle is to eliminate leakage paths.
Ensuring Long-Term Sealing Performance: Through formulation and structural design, it meets deformation and displacement requirements: compensating for thermal expansion and contraction of joints due to temperature changes, while ensuring bond strength, preventing cracking and blistering, and maintaining a long-term sealing effect.

Innovative Design and Sustainable Direction
Currently, driven by dual carbon goals, sealant design philosophy is upgrading towards green and low-carbon:
Low-Carbon and Environmentally Friendly: Using renewable bio-based raw materials to replace petrochemical raw materials reduces carbon emissions from production, strictly controls VOC emissions, and meets environmental standards.
Long-Lasting and Durable: Improved weather resistance and anti-aging performance extends product lifespan, reduces replacement frequency, and lowers resource consumption.
Energy-Saving and High-Efficiency: Developing high-insulation formulations reduces building energy consumption, optimizes construction performance to shorten construction time, and reduces energy consumption during construction.

