We study the effects of motor-generated stresses in disordered three-dimensional fiber networks using a combination of a mean-field theory, scaling analysis, and a computational model. We find that motor activity controls the elasticity in an anomalous fashion close to the point of marginal stability by coupling to critical network fluctuations. We also show that motor stresses can stabilize initially floppy networks, extending the range of critical behavior to a broad regime of network connectivities below the marginal point. Away from this regime, or at high stress, motors give rise to a linear increase in stiffness with stress. Finally, we demonstrate that our results are captured by a simple, constitutive scaling relation highlighting t...
AbstractThe mechanical behavior of an ensemble of fibers which are not bonded to each other subjecte...
Collagen is the main structural and load-bearing element of various connective tissues, where it for...
Disordered spring networks that are undercoordinated may abruptly rigidify when sufficient strain is...
8 pages, 4 figures. Supporting information: 5 pages, 5 figuresInternational audienceLarge-scale forc...
Fibrous active network structures whose properties are regulated by motor proteins, or simply motors...
The mechanics of disordered fibrous networks such as those that make up the extracellular matrix are...
Disordered fibrous networks are ubiquitous in nature as major structural components of living cells ...
<p><b>A)</b> Simulation of an active network with fixed boundaries. Rearrangement of network filamen...
Networks with only central force interactions are floppy when their average connectivity is below an...
Reconstituted filamentous actin networks with myosin motor proteins form active gels, in which motor...
Living systems naturally exhibit internal driving: active, molecular processes drive non-equilibrium...
\u3cp\u3eWe investigate the interplay between prestress and mechanical properties in random elastic ...
Recent experiments on molecular motor driven in vitro F-Actin networks have found anomalously large ...
Disordered fibre networks are the basis of many man-made and natural materials, including structural...
Disordered fiber networks provide structural support to a wide range of important materials, and the...
AbstractThe mechanical behavior of an ensemble of fibers which are not bonded to each other subjecte...
Collagen is the main structural and load-bearing element of various connective tissues, where it for...
Disordered spring networks that are undercoordinated may abruptly rigidify when sufficient strain is...
8 pages, 4 figures. Supporting information: 5 pages, 5 figuresInternational audienceLarge-scale forc...
Fibrous active network structures whose properties are regulated by motor proteins, or simply motors...
The mechanics of disordered fibrous networks such as those that make up the extracellular matrix are...
Disordered fibrous networks are ubiquitous in nature as major structural components of living cells ...
<p><b>A)</b> Simulation of an active network with fixed boundaries. Rearrangement of network filamen...
Networks with only central force interactions are floppy when their average connectivity is below an...
Reconstituted filamentous actin networks with myosin motor proteins form active gels, in which motor...
Living systems naturally exhibit internal driving: active, molecular processes drive non-equilibrium...
\u3cp\u3eWe investigate the interplay between prestress and mechanical properties in random elastic ...
Recent experiments on molecular motor driven in vitro F-Actin networks have found anomalously large ...
Disordered fibre networks are the basis of many man-made and natural materials, including structural...
Disordered fiber networks provide structural support to a wide range of important materials, and the...
AbstractThe mechanical behavior of an ensemble of fibers which are not bonded to each other subjecte...
Collagen is the main structural and load-bearing element of various connective tissues, where it for...
Disordered spring networks that are undercoordinated may abruptly rigidify when sufficient strain is...