Glass powder and particle technology

Distinctive properties make high-purity specialty glass or glass-ceramic powders and particles an important ingredient in dental, medical and cosmetics, sensor and electronics industries, as well as a broad variety of other technical applications.
What is glass powder?

What is glass powder?

Also referred to as ‘glass frit’ or ‘glass flux’, glass powder is quenched glass that is milled down into very small particles, with a typical median grain size between 30 µm down to as fine as 0.1 µm. Customized sizes or distributions are also possible. Glass powder properties stem from the identity of the glass itself, as well as particle size and morphology. Depending on the composition, specialty glass powders can meet highly versatile requirements.
Four glass dishes full of different types of glass powder

Reliable sealing, joining and insulation

Glass powders are often used as a non-aging, temperature-resistant ‘glue’ for the reliable sealing, joining or soldering of different materials. Gas-tightness and exceptional insulation properties make it a widely-used material to seal and insulate electrical conductors or to passivate and protect semiconductor surfaces.

Close up of gloved hands holding a petri dish full of white glass powder

Filler, additive or functional material

Used as a filler or additive in composites, glass powders and particles can serve as the perfect inorganic material for optimization. Glass powders can also be functionalized or act as an active ingredient, as is the case with porous, bioactive, HF-adsorbing, or UV-absorbing particles.

Function & Applications

Glass Powders: function and applications

A broad range of properties make specialty glass powders an extremely versatile material that serves a broad range of use cases and applications.

 

Sealing and soldering of metals, ceramics or glasses

When used to electrically insulate, seal or join different materials, one of the key aspects for a durably stable bond are the coefficients of thermal expansion (CTE) of the materials to be joined. Application examples include Glass-to-Metal Seals, high-temperature applications (for example, Solid Oxide Fuel Cells), opto-electronic and MEMS packaging, or sensor technology.

 

Functional materials

Nano- and macro-porous glass powders offer excellent absorption and separation capabilities, which are ideal for applications such as filtration, chromatographic separation, or as a carrier for liquids and active substances.

 

Inorganic fillers

Polymer-based materials can be enhanced with thermal stability or optical features, while glass can be enhanced with mechanical or chemical resistance features. Some glass types even have (re-)active properties, such as bioactivity or ion release. Application examples include dental restoration, cosmetics, medical and polymer composites.

 

Protection for semiconductor devices

For example, to passivate and encapsulate thyristors, power transistors and diodes, sinter glass diodes and rectifiers, and high-voltage devices.

 

Printing materials

Applications include glass-on-ceramic screen printing, silicon wafer passivation or sensor technology. Glass powders also offer interesting use cases for 3D printing of complex glass bodies – for example, dental applications such as tooth implants, crowns, or bridges.

Advantages
Supply Formats

Supply formats

Glass powder can be sold 'as is' or further processed as sintered preform glass or glass pastes.

Powders can be supplied using different manufacturing techniques, resulting in a broad product portfolio with different grain sizes, various particle size distributions, and customized morphologies. Grinding with extremely high purity levels is a special competency of SCHOTT. In addition, nano- or macro-porous glass particles are available as part of our portfolio. Value-added process steps such as surface treatment (for example, silanization) are also available.

Sintered preforms are pressed and sintered glass beads that can be supplied in an extremely broad variety of shapes and dimensions. Preforms are ready-to-use because they do not contain any binder. SCHOTT is a development and innovation partner for customers from various industries and offers customized preforms made from nearly all glass types.

Glass pastes consist of glass powder mixed with an organic binder and solvent. Featuring a defined viscosity, they are ready to be screen-printed or dispensed for sealing and over-glazing purposes.

Other formats are available on request. Special formats such as tapes/green sheets and special pastes can be developed and produced in cooperation with partners.
Close-up of a scientist measuring glass powder into a glass dish
Production

How glass powders are produced

SCHOTT controls the entire process chain from the development and selection of raw materials to grinding and further processing. More than 140 years of melting experience and the availability of different melting technologies enables excellent purity and batch-to-batch repeatability. Different grinding technologies also enable specific grain size distributions. SCHOTT continuously optimizes its grinding technologies, both in-house as well as with external development partners.

Production process

Glass development and melting

Glass development and melting

Practically all melting is done in-house. The choice of melting technology depends on the composition and quality requirements of the individual glass type. Over 100 different glass powder compositions that are developed in-house can be offered as standard powders. Customized formulations can be developed and melted upon request.
Grinding/milling

Grinding/milling

Depending on the desired grain size and distribution, different dry and wet grinding technologies are used. These include SCHOTT’s patented UF Ultrafine technology for grain sizes down to 0.1 µm, mostly used in the dental field. Coarse grain sizes are also possible upon request.
Processing

Processing

Glass powders are also available processed into sintered glass preforms with customized dimensions. The fine particles can be offered as a ready-mixed glass paste. Silanization is a coating process that enables better bonding of the glass particles with polymer-based composites. It is a standard, established process, especially for dental restoration materials.
Innovations

solutions 1/2018 Starcatcher

Breathing on Mars

High-temperature sealing glasses from SCHOTT are used to protect electrolysis cells in NASA’s 2020 exploration of Mars.

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SCHOTT: Your reliable supplier for glass powder

With more than 80 years of experience in milling glass, we supply powders to a broad variety of industries for a range of applications, including:

  • Automotive and Industrial Sensors
  • Aviation & Aerospace
  • Biotech
  • Dental & Oral Health
  • Energy (for example, Solid Oxide Fuel Cells, Batteries)
  • Medical & Cosmetics
  • Microelectronics (for example, Wafer Passivation)
  • 3D Printing

Girl dyes her hair
News & Innovation stories

Ammonia alternative: Bioactive glass powder from SCHOTT enables new generation of hair dye

Skin-friendly bioactive glass powder Vitryxx® from SCHOTT offers an alternative to ammonia and 2-ethanolamine as an odorless and pH-boosting active ingredient in permanent hair dyes.

Learn more

Want to talk directly to an expert?

Let’s discuss how glass powder can be the perfect fit for your application.

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