Isostatic networks are minimally rigid and therefore have, generically, nonzero elastic moduli. Regular isostatic networks have finite moduli in the limit of large sizes. However, numerical simulations show that all elastic moduli of geometrically disordered isostatic networks go to zero with system size. This holds true for positional as well as for topological disorder. In most cases, elastic moduli decrease as inverse power laws of system size. On directed isostatic networks, however, of which the square and cubic lattices are particular cases, the decrease of the moduli is exponential with size. For these, the observed elastic weakening can be quantitatively described in terms of the multiplicative growth of stresses with system size, g...
We examine the elastic and vibrational properties of spring lattices, including the two-dimensional ...
We examine the elastic and vibrational properties of spring lattices, including the two-dimensional ...
We study the role of connectivity on the linear and nonlinear elastic behavior of amorphous systems ...
Disordered soft materials, such as fibrous networks in biological contexts, exhibit a nonlinear elas...
We reveal significant qualitative differences in the rigidity transition of three types of disordere...
We study the elasticity of thermalized spring networks under an applied bulk strain. The networks co...
Disordered spring networks that are undercoordinated may abruptly rigidify when sufficient strain is...
International audienceDisordered spring networks are a useful paradigm to examine macroscopic mechan...
Jammed packings of repulsive elastic spheres have emerged as a rich model system within which elasti...
[[abstract]]In recent work, we presented evidence that site-diluted triangular central-force network...
Rigidity is one of the central themes in soft condensed matter physics. There has been enduring rese...
This is the final version of the article. It first appeared from Nature Publishing Group via http://...
We consider two-dimensional triangular networks of beads connected by Hookean tethers under isotropi...
A theoretical model has been developed which provides analytical expressions for the elastic moduli ...
We examine the elastic and vibrational properties of spring lattices, including the two-dimensional ...
We examine the elastic and vibrational properties of spring lattices, including the two-dimensional ...
We study the role of connectivity on the linear and nonlinear elastic behavior of amorphous systems ...
Disordered soft materials, such as fibrous networks in biological contexts, exhibit a nonlinear elas...
We reveal significant qualitative differences in the rigidity transition of three types of disordere...
We study the elasticity of thermalized spring networks under an applied bulk strain. The networks co...
Disordered spring networks that are undercoordinated may abruptly rigidify when sufficient strain is...
International audienceDisordered spring networks are a useful paradigm to examine macroscopic mechan...
Jammed packings of repulsive elastic spheres have emerged as a rich model system within which elasti...
[[abstract]]In recent work, we presented evidence that site-diluted triangular central-force network...
Rigidity is one of the central themes in soft condensed matter physics. There has been enduring rese...
This is the final version of the article. It first appeared from Nature Publishing Group via http://...
We consider two-dimensional triangular networks of beads connected by Hookean tethers under isotropi...
A theoretical model has been developed which provides analytical expressions for the elastic moduli ...
We examine the elastic and vibrational properties of spring lattices, including the two-dimensional ...
We examine the elastic and vibrational properties of spring lattices, including the two-dimensional ...
We study the role of connectivity on the linear and nonlinear elastic behavior of amorphous systems ...