Hydrolysis-Resistant Coating is a key protection technology for high humidity and acid-base environments, and is widely used in automotive electronics, marine equipment, outdoor displays, and other fields. Traditional coatings are prone to cracking and peeling due to hydrolysis, while Shenzhen U-Sunny's N-1715 nano-zirconia dispersion has achieved a double breakthrough in coating durability and optical performance through innovative surface modification technology, becoming an innovative solution for the chemical, coating, ink, and adhesive industries.
N-1715's core advantage: Solving the problem of hydrolysis failure
Long-term hydrolysis resistance
N-1715 uses nano zirconium oxide (ZrO₂) hydroxyl passivation technology to form a dense protective layer on the coating surface. The anti-hydrolysis time is more than 5 times that of traditional materials (up to 3000 hours @85℃/85%RH), which is suitable for extremely humid environments.
High transparency and adhesion
Nano particles are evenly dispersed (particle size <50nm), with a transmittance of over 90%. At the same time, they are compatible with substrates such as polyurethane (PU) and epoxy resin, and the adhesion reaches 5B grade (ASTM D3359), avoiding coating stratification failure.
Environmental protection and energy-saving process
As a water-based dispersion, N-1715 does not contain organic solvents, VOC emissions are close to zero, and the low-temperature curing (80℃) characteristics can reduce energy consumption by 40%, which is suitable for green chemical production standards.

Cross-industry applications: from protective coatings to functional material innovation
Automotive and electronic coatings
In-vehicle display packaging: N-1715's hydrolysis resistance can resist condensation water erosion and extend the life of OLED flexible screens to 100,000 bending tests (IEC 62137 standard).
Power battery housing protection: Its acid and alkali resistance (pH 2-12) provides a stable protective layer for lithium batteries and reduces the risk of short circuits in hot and humid environments.
Industrial coatings and inks
Marine equipment anti-corrosion coatings: In the salt spray test (ASTM B117), the N-1715 coating has a corrosion resistance of 3,000 hours without rust, far exceeding the 1,200 hours of traditional epoxy coatings.
Weather-resistant printing inks: When used for outdoor advertising printing, the anti-ultraviolet yellowing performance is improved by 60%, and the color durability is extended to more than 8 years.
Adhesives and packaging materials
N-1715 reduces the water absorption rate of packaging adhesives to 0.2% (lower than the industry average of 1.5%) by enhancing the hydrophobicity of epoxy resin, significantly improving the moisture-proof sealing of LED outdoor modules.
Market trends: Environmental regulations and emerging demands drive growth
According to Grand View Research data, the global hydrolysis-resistant coating market will reach US$4.7 billion in 2023 and is expected to exceed US$7.2 billion in 2030, with a compound annual growth rate of 6.3%. Shenzhen U-Sunny's N-1715 seizes the technological high ground through the following directions:
Compatible with bio-based materials: Combined with renewable raw materials such as soybean oil derivatives to develop carbon-neutral coating solutions.
Miniaturized electronic protection: Adapt to the ultra-thin coating needs of flexible sensors and wearable devices (thickness <10μm), and promote lightweight consumer electronics.
Shenzhen U-Sunny's Hydrolysis-Resistant Coating solution (N-1715) is based on nanotechnology and provides long-term protection and environmental protection value for the chemical, electronic and industrial manufacturing fields. Whether it is equipment protection in extreme environments or green production needs, N-1715 redefines industry standards with its excellent performance, helping companies reduce costs, increase efficiency and achieve sustainable development goals.

