Typical additive manufacturing processes for glass require polymer mixtures that must be burned away with heat once the desired shapes are formed. The Georgia Tech team's approach uses a photoresin ...

Controlled pore glass (CPG) is a high silica glass that includes pores with a particular size distribution. Porous glasses can be fabricated into a wide variety of geometric forms (such as beads, frit ...

The chip industry is racing to develop glass for advanced packaging, setting the stage for one of the biggest shifts in chip materials in decades — and one that will introduce a broad new set of ...

Conventional manufacturing of glass microfluidic devices is a complex, multi-step process that involves a combination of different fabrication techniques, typically photolithography, chemical/dry ...

Precision glass molding (PGM) has emerged as a pivotal manufacturing route for the high‐volume, ultra‐precise production of optical and microstructured glass components. By pressing a preform against ...

The Center for Glass Innovation (CGI) was established at the New York State College of Ceramics to develop next generation glass materials and improve glass manufacturing processes to optimize ...

Glasses are not stoichiometric compounds but variable mixtures of substances, some of which can independently form glasses while others cannot. This variability allows for a vast range of compositions ...

Companies building the largest AI accelerators face a growing cost problem that has nothing to do with transistors. The ...