Glass-forming systems have long fascinated researchers due to their unique transition from a fluid to a disordered solid state. Central to understanding these systems is the study of relaxation ...

Physically speaking, glass is a rather unusual material. Most solid materials are significantly ‘ordered’ with their constituent molecules or atoms in a regular arrangement, repeating patterns called ...

The glass transition represents a remarkable transformation whereby a supercooled liquid becomes an amorphous, non-crystalline solid. Unlike standard phase transitions, this process involves a ...

Lowering the 'softening temperature' via electric field to form glass products into specific shapes offers a way to save significant amounts of energy vs. traditional forming approaches Washington, ...

The gas is used in various applications such as the production of float glass semiconductors, metal treatment, chemical processes, and in various processes in the oil and gas industry. “ Nitrogen or ...

The glass we're most familiar with is made from silicon dioxide, but materials like boron, polymers and metals have also been used. Now, an international team of scientists have developed a brand new ...

On a serendipitous occasion, listening to one professor speak about the remarkable effect of moderate electrical fields on lowering the sintering temperature of certain ceramic powders, another began ...