Ribbons are long narrow strips possessing three distinct material length scales (thickness, width, and length) which allow them to produce unique shapes unobtainable by wires or filaments. For example, when a ribbon has half a twist and is bent into a circle it produces a Möbius strip. Significant effort has gone into determining the structural shapes of ribbons but less is know about their behavior in viscous fluids. In this paper, we determine, asymptotically, the leading-order hydrodynamic behavior of a slender ribbon in Stokes flows. The derivation, reminiscent of slender-body theory for filaments, assumes that the length of the ribbon is much larger than its width, which itself is much larger than its thickness. The final result is an ...
The hydrodynamics of a flagellated microswimmer moving in thin films is discussed. The fully re- sol...
A one-dimensional model for a narrow ribbon is derived from the plate theory of Kirchhoff by means o...
A stiff one-armed swimmer in glycerine goes nowhere. However, if its arm is elastic, the swimmer can...
Ribbons are long narrow strips possessing three distinct material length scales (thickness, width, a...
The low-Reynolds-number hydrodynamics of slender ribbons is accurately captured by slender-ribbon th...
Numerical study of the hydrodynamics of thin sheets and ribbons presents difficulties associated wit...
We study the dynamic self-assembly and propulsion of a ribbon formed from paramagnetic colloids in a...
Many cells exploit the bending or rotation of flagellar filaments in order to self-propel in viscous...
Some hair-like biofilaments such as cilia and flagella, experience structural instability that resul...
Resolving the detailed hydrodynamics of a slender body immersed in highly-viscous Newtonian fluid ha...
Three different models, relating to the study of microswimmers immersed in a low Reynolds number flui...
We address the mechanics of an elastic ribbon subjected to twist and tensile load. Motivated by the ...
Swimming of microorganisms in viscous fluids is a complex problem involving many degrees of freedom....
When a straight rod is bent and suddenly released on one end, a burst of dispersive flexural waves p...
Elastic filaments subjected to hydrodynamic forcing are a common class of fluid-structure interactio...
The hydrodynamics of a flagellated microswimmer moving in thin films is discussed. The fully re- sol...
A one-dimensional model for a narrow ribbon is derived from the plate theory of Kirchhoff by means o...
A stiff one-armed swimmer in glycerine goes nowhere. However, if its arm is elastic, the swimmer can...
Ribbons are long narrow strips possessing three distinct material length scales (thickness, width, a...
The low-Reynolds-number hydrodynamics of slender ribbons is accurately captured by slender-ribbon th...
Numerical study of the hydrodynamics of thin sheets and ribbons presents difficulties associated wit...
We study the dynamic self-assembly and propulsion of a ribbon formed from paramagnetic colloids in a...
Many cells exploit the bending or rotation of flagellar filaments in order to self-propel in viscous...
Some hair-like biofilaments such as cilia and flagella, experience structural instability that resul...
Resolving the detailed hydrodynamics of a slender body immersed in highly-viscous Newtonian fluid ha...
Three different models, relating to the study of microswimmers immersed in a low Reynolds number flui...
We address the mechanics of an elastic ribbon subjected to twist and tensile load. Motivated by the ...
Swimming of microorganisms in viscous fluids is a complex problem involving many degrees of freedom....
When a straight rod is bent and suddenly released on one end, a burst of dispersive flexural waves p...
Elastic filaments subjected to hydrodynamic forcing are a common class of fluid-structure interactio...
The hydrodynamics of a flagellated microswimmer moving in thin films is discussed. The fully re- sol...
A one-dimensional model for a narrow ribbon is derived from the plate theory of Kirchhoff by means o...
A stiff one-armed swimmer in glycerine goes nowhere. However, if its arm is elastic, the swimmer can...