Add to ORKGCurrent electroadhesive actuators cannot produce stable electroadhesive forces on the same substrate with different interfacial surface interactions. It is, therefore, desirable to develop electroadhesive actuators that can generate stable adhesive forces on different surface conditions. A symmetrical electroadhesive pad that is independent of different interfacial scratch directions is developed and presented. A relative difference of only 6.4% in the normal force direction was observed when the electroadhesive was facing an aluminium plate with surface scratch directions of 0°, 45°, 90°, and 135°. This step-change improvement may significantly promote the application of electroadhesion technology. In addition, this manifests that signific...
This paper investigates the effect of driving voltage on the attachment force of an electroadhesion ...
The purpose of this study is to design, analyze, and fabricate an electroadhesion mechanism with th...
An autonomous, adaptive, and intelligent electroadhesive material handling system has been presented...
A simplified and novel theoretical model for coplanar interdigital electroadhesives has been present...
A novel investigation into the relationship between the obtainable interfacial electroadhesive force...
Electroadhesion is a promising adhesion mechanism for robotics and material handling applications du...
An experimental investigation into the relationship between the interfacial electroadhesive force an...
Robotics and autonomous systems (RAS) have great potential to propel the world to future growth. Ele...
A systematic research methodology for the performance evaluation of different electroadhesive pad ge...
We demonstrate reversible and switchable actuation using AC electric fields to bring two surfaces sep...
Electrostatic adhesion provides an attachment mechanism for robotic grippers that is both controllab...
Described herein is electroadhesion technology that permits controllable adherence between two objec...
The growing need for automation in industries has foreseen drastic advancements in the development o...
Electroadhesion (EA) is an electrically controllable adhesion mechanism that has been studied and us...
Fabricating a gripper for industrial robot arms with the capability of handling a variety of objects...
This paper investigates the effect of driving voltage on the attachment force of an electroadhesion ...
The purpose of this study is to design, analyze, and fabricate an electroadhesion mechanism with th...
An autonomous, adaptive, and intelligent electroadhesive material handling system has been presented...
A simplified and novel theoretical model for coplanar interdigital electroadhesives has been present...
A novel investigation into the relationship between the obtainable interfacial electroadhesive force...
Electroadhesion is a promising adhesion mechanism for robotics and material handling applications du...
An experimental investigation into the relationship between the interfacial electroadhesive force an...
Robotics and autonomous systems (RAS) have great potential to propel the world to future growth. Ele...
A systematic research methodology for the performance evaluation of different electroadhesive pad ge...
We demonstrate reversible and switchable actuation using AC electric fields to bring two surfaces sep...
Electrostatic adhesion provides an attachment mechanism for robotic grippers that is both controllab...
Described herein is electroadhesion technology that permits controllable adherence between two objec...
The growing need for automation in industries has foreseen drastic advancements in the development o...
Electroadhesion (EA) is an electrically controllable adhesion mechanism that has been studied and us...
Fabricating a gripper for industrial robot arms with the capability of handling a variety of objects...
This paper investigates the effect of driving voltage on the attachment force of an electroadhesion ...
The purpose of this study is to design, analyze, and fabricate an electroadhesion mechanism with th...
An autonomous, adaptive, and intelligent electroadhesive material handling system has been presented...