Glass powder, as a typical inorganic amorphous powder material, achieves stable bonding at different material interfaces (such as metal-ceramic, semiconductor-substrate, and multilayer functional films) due to its adjustable melting temperature range, excellent interface compatibility, and stability. Precise stoichiometric control allows for the tuning of characteristic temperatures, thermal expansion coefficients, and corrosion resistance. This adaptability ensures optimal thermomechanical matching across a diverse range of substrates and specialized application requirements.

Our key product lines include barium-, silicon-, bismuth-, and vanadium-based glass powders. Applications span electronic pastes (solar/automotive), fluorescent ceramics, and high/low-temperature electronic packaging for vape devices.

Outstanding Characteristics of Glass Powder

• Outstanding Characteristics of Glass Powder

  High Purity, Low Impurities

  The raw materials are carefully selected and finely ground, ensuring low impurity content and stable performance in high-end electronic and optoelectronic applications.

• Uniform Particle Distribution, Controllable Particle Size

  We offer tailored particle size distributions (PSDs) ranging from the nanometer to the micron scale. This granular control allows for precise alignment with specific process requirements, satisfying the rigorous technical standards of diverse industrial sectors.

• Excellent Chemical Stability

  The material exhibits exceptional chemical inertness, demonstrating superior resistance to acids, alkalis, and a broad spectrum of organic solvents ensuring sustained performance even when exposed to highly aggressive environmental conditions.

• Excellent Optical Properties

  High transparency and stable refractive index, improving the optical performance of coatings or composite materials, making it ideal for optical coatings and optical device applications.

• Good Dispersibility and Flowability

  Engineered for optimal mixing efficiency, our powders feature an ultra-smooth surface and superior dispersion stability. This ensures uniform blending with various matrix materials (polymers, ceramics, metals), directly contributing to enhanced composite performance and streamlined manufacturing processes.

Wide Applications of Glass Powder

1. Photovoltaic

   Acting as a bonding phase, the material enhances interfacial adhesion and promotes film densification. This mechanism, along with appropriate corrosivity that facilitates AgAl ion migration, is essential for performance in photovoltaic silver and aluminum pastes, optimizing solar cell efficiency.

2. Fluorescent Ceramics

   These glass powders are engineered for co-firing with phosphors, creating a high-transparency matrix that stabilizes and protects the fluorescent lattice. This structure is optimized for high-power thermal management in automotive, laser-driven, and specialized industrial lighting applications.

3. Automotive Glass

   Utilizing superior anti-oxidation and anti-sulfurization properties to enhance environmental durability, these materials are optimized for silver pastes used in automotive front and rear window heating elements.

4. Advanced Packaging

   Forms a continuous, dense glass-like sealing layer, providing insulation, moisture resistance, thermal management, and enhancing the long-term reliability of packaging components.