Viscoelastic polymer dynamics and kinetic models represent a vibrant interdisciplinary field that bridges molecular theory with macroscopic flow behaviour in complex fluids. At its core, the subject ...

The stress–strain behaviors of viscoelastic materials are often simulated using a model composed of various combinations of springs and dampers. With the increase in the number of springs and dampers, ...

Tidal heating of exomoons may play a key role in their habitability, since the elevated temperature can melt the ice on the body even without significant solar radiation. The possibility of life is ...

Abstract: Viscoelastic models are generally considered a good option for modeling biological tissue due to tissue time-dependency. However, although various forms of viscoelastic models have been ...

This is a preview. Log in through your library . Abstract The authors present an approximation theory for thin filaments, fibers or jets which yields families of transient 1-D models (time-dependent, ...

Liquid droplets of protein and RNA have traits reminiscent of a childhood joy: Silly Putty. That’s according to a study by scientists at UB and Iowa State University, who have created such droplets in ...

Fluid elasticity and the hydrodynamic force dipole play significant role in how pushers, pullers and neutral oscillating ...

Rheometry is the method used to analyze the rheological behavior of a material; with rheology defined as the study of matter when it flows or is deformed. As a result rheology describes forces and ...

Keywords: Viscoelastic Dampers, Ambient Temperature, Structural Response, Steel Framed Structures, Passive Protective Systems, Structural Damping, Secondary Systems, and Seismic Response. Abstract: ...