Disordered spring networks can exhibit rigidity transitions, due to either the removal of material in over-constrained networks or the application of strain in under-constrained ones. While an effective medium theory (EMT) exists for the former, there is none for the latter. We, therefore, formulate an EMT for random regular, under-constrained spring networks with purely geometrical disorder to predict their stiffness via the distribution of tensions. We find a linear dependence of stiffness on strain in the rigid phase and a nontrivial dependence on both the mean and standard deviation of the tension distribution. While EMT does not yield highly accurate predictions of shear modulus due to spatial heterogeneities, it requires only the dist...
An effective-medium model is introduced for the elasticity of two-dimensional random fiber networks....
It is believed that, much like a cat's cradle, the cytoskeleton can be thought of as a network of st...
We study the elasticity of random stiff fiber networks. The elastic response of the fibers is charac...
Disordered soft materials, such as fibrous networks in biological contexts, exhibit a nonlinear elas...
Disordered spring networks that are undercoordinated may abruptly rigidify when sufficient strain is...
By applying effective medium-style calculations to random spring networks, we demonstrate that inter...
Networks of elastic fibers are ubiquitous in biological systems and often provide mechanical stabili...
International audienceDisordered spring networks are a useful paradigm to examine macroscopic mechan...
We reveal significant qualitative differences in the rigidity transition of three types of disordere...
A disordered cubic network of springs is introduced as a model of 3-dimensional tenuous networks. It...
We study the elasticity of thermalized spring networks under an applied bulk strain. The networks co...
Filamentous polymer networks govern the mechanical properties of many biological materials. Force di...
We develop an effective medium approach to the mechanics of disordered, semiflexible polymer network...
This thesis work deals with two major topics: the rigidity of random line networks and transient wav...
We study the role of connectivity on the linear and nonlinear elastic behavior of amorphous systems ...
An effective-medium model is introduced for the elasticity of two-dimensional random fiber networks....
It is believed that, much like a cat's cradle, the cytoskeleton can be thought of as a network of st...
We study the elasticity of random stiff fiber networks. The elastic response of the fibers is charac...
Disordered soft materials, such as fibrous networks in biological contexts, exhibit a nonlinear elas...
Disordered spring networks that are undercoordinated may abruptly rigidify when sufficient strain is...
By applying effective medium-style calculations to random spring networks, we demonstrate that inter...
Networks of elastic fibers are ubiquitous in biological systems and often provide mechanical stabili...
International audienceDisordered spring networks are a useful paradigm to examine macroscopic mechan...
We reveal significant qualitative differences in the rigidity transition of three types of disordere...
A disordered cubic network of springs is introduced as a model of 3-dimensional tenuous networks. It...
We study the elasticity of thermalized spring networks under an applied bulk strain. The networks co...
Filamentous polymer networks govern the mechanical properties of many biological materials. Force di...
We develop an effective medium approach to the mechanics of disordered, semiflexible polymer network...
This thesis work deals with two major topics: the rigidity of random line networks and transient wav...
We study the role of connectivity on the linear and nonlinear elastic behavior of amorphous systems ...
An effective-medium model is introduced for the elasticity of two-dimensional random fiber networks....
It is believed that, much like a cat's cradle, the cytoskeleton can be thought of as a network of st...
We study the elasticity of random stiff fiber networks. The elastic response of the fibers is charac...