A stroll on the beach can mean sinking your toes into smooth sand or walking firm-footed on a surface that appears almost solid. While both properties are commonplace, exactly what it is that makes ...

Understanding the way a wave moves through granular materials—after an earthquake, for example—has vast implications for modern science. After all, scientists use stress wave propagation through ...

The study of granular material dynamics encompasses the investigation of how individual grains interact in dense flows, leading to a range of segregation phenomena. Granular segregation, whereby ...

Granular materials, from sands to engineered powders, exhibit complex mechanical behaviour that challenges traditional concepts of solid and fluid mechanics alike. Researchers have increasingly ...

When we take a stroll on the beach, we walk on the sand without any trouble. The sand appears solid and is difficult to compress. When we put the same sand grains in an hourglass, they behave very ...

Editor’s note: The following research is among the many talks that scientists from UChicago and its affiliated laboratories will present Feb. 13-17 at the annual meeting of the American Association ...

Slip sliding away: illustration based on false-colour image of sheared grains and sound waves. (Courtesy: Ted Brzinski) A new experiment has revealed how sheared granular materials emit sound waves ...

Researchers have made a new discovery about the role of gravity in granular materials which could have applications in the pharmaceutical industry and provide a new understanding of images of granular ...

Granular materials and fine powders are used across various industrial processes and applications. To optimize and control processing methods, these materials have to be characterized precisely.

Mixing liquids is easy, or at least scientifically understood: a drop of food coloring will eventually mix into a cup of water through diffusion, and a dollop of cream can be mixed into coffee with a ...