Add to ORKGLiquid metal embedded elastomers (LMEE) are soft, stretchable materials that become conductive upon application of a compressive force. The conductance stems from the compression-induced percolation of the liquid metal inclusions. Interestingly, a recent work showed that once the elastomer becomes conductive, its resistance is independent of stretch. This work aims to understand these phenomena. We start by simulating the response of an elastomer composite with two soft inclusions subjected to a compressive force. It is shown that the presence of the inclusions can give rise to a tensile stress in the elastomer, leading to rupture and percolation. Next, we study the dependence of the resistance and the conductivity on an applied uniaxial st...
The coupled electromechanical response of electroactive dielectric composites is examined in the set...
A model for the dependence of the electrical conductance, G, with the strain induced by external mec...
Wearable electronics, conformable sensors, and soft/micro-robotics require conductive yet stretchabl...
Stretchable and conductance-stable composites are critical for progress in flexible electronics. Tre...
Liquid metal-embedded elastomers (LMEEs) are a class of deformable composites made of particles of l...
Dielectric elastomers have gained substantial interest in the past few decades under research effort...
Electromechanical actuation is a growing field of research today both for applications or theoretica...
Soft and stretchable electronics (SSEs) have recently drawn considerable attention as an alternative...
Conductive elastic composites have been used widely in soft electronics and soft robotics. These com...
We propose a protocol to model accurately the electromechanical behavior of dielectric elastomer mem...
Thesis (M.Sc.Eng.)Dielectric elastomers (DEs) have attracted significant attention in recent years a...
<p>Stretchable electronics is an exciting new field of developing technology, allowing devices to un...
Due to high electrical conductivity, metals have been the traditional material for electrodes. Howev...
Stretchable electronics promise to extend the application range of conventional electronics by enabl...
In this paper, the effect of encapsulation on deformation behavior and failure mechanisms of stretch...
The coupled electromechanical response of electroactive dielectric composites is examined in the set...
A model for the dependence of the electrical conductance, G, with the strain induced by external mec...
Wearable electronics, conformable sensors, and soft/micro-robotics require conductive yet stretchabl...
Stretchable and conductance-stable composites are critical for progress in flexible electronics. Tre...
Liquid metal-embedded elastomers (LMEEs) are a class of deformable composites made of particles of l...
Dielectric elastomers have gained substantial interest in the past few decades under research effort...
Electromechanical actuation is a growing field of research today both for applications or theoretica...
Soft and stretchable electronics (SSEs) have recently drawn considerable attention as an alternative...
Conductive elastic composites have been used widely in soft electronics and soft robotics. These com...
We propose a protocol to model accurately the electromechanical behavior of dielectric elastomer mem...
Thesis (M.Sc.Eng.)Dielectric elastomers (DEs) have attracted significant attention in recent years a...
<p>Stretchable electronics is an exciting new field of developing technology, allowing devices to un...
Due to high electrical conductivity, metals have been the traditional material for electrodes. Howev...
Stretchable electronics promise to extend the application range of conventional electronics by enabl...
In this paper, the effect of encapsulation on deformation behavior and failure mechanisms of stretch...
The coupled electromechanical response of electroactive dielectric composites is examined in the set...
A model for the dependence of the electrical conductance, G, with the strain induced by external mec...
Wearable electronics, conformable sensors, and soft/micro-robotics require conductive yet stretchabl...