Add to ORKGCompliant pneumatic actuators have attracted the interests of the robotics community especially for applications where large strokes are needed in delicate environments. This paper introduces a new type of compliant actuator that generates a large twisting deformation upon pressurization. This deformation is similar to torsion in solid mechanics, and can be characterized by a twisting angle along the longitudinal axis of the actuator. To produce prototype actuators, a new fabrication process is developed that uses soft lithography. With this process, prototype actuators with a width of 7mm and a thickness of 0.65mm have been produced that exhibit a twisting rotation of 6.5 degrees per millimeter length at a pressure of 178kPa. Besides desig...
The field of soft robotics has emerged as a viable complement to conventional industrial robotics. S...
This thesis describes a unique mechanism – a soft rotary actuator – based on peristaltic motion and ...
Soft robotics is a growing field where scientists and engineers collaborate to design machines that ...
Compliant pneumatic actuators have recently attracted the interests of the robotics community, espec...
Actuators based on compliant multi-stable structures offer benefits of low mass, large stroke, high ...
The technological tendency to close the physical gap between robots and humans requires the developm...
Nature abounds with complex, three-dimensional shapes, and helices which are some of the most common...
Soft pneumatic actuators can produce a range of motions and deliver a high force-to-mass ratio whils...
Pneumatic soft actuators possess relatively fast response, inherent high flexibility, and achieve ex...
ABS T R A C T In recent years, soft pneumatic actuators with soft and flexible materials have been w...
Compliant pneumatic micro-actuators are interesting for applications requiring large strokes and for...
Inspired from nature, soft robots capable of actively tuning their mechanical rigidity can rapidly t...
An emerging topic in robotics research is the development of a robot with soft characteristics to pe...
Soft pneumatic actuators are usually fabricated using molding and casting techniques with silicone r...
In this work, we propose a novel type of 3D-printed soft pneumatic actuator that allows geometry-bas...
The field of soft robotics has emerged as a viable complement to conventional industrial robotics. S...
This thesis describes a unique mechanism – a soft rotary actuator – based on peristaltic motion and ...
Soft robotics is a growing field where scientists and engineers collaborate to design machines that ...
Compliant pneumatic actuators have recently attracted the interests of the robotics community, espec...
Actuators based on compliant multi-stable structures offer benefits of low mass, large stroke, high ...
The technological tendency to close the physical gap between robots and humans requires the developm...
Nature abounds with complex, three-dimensional shapes, and helices which are some of the most common...
Soft pneumatic actuators can produce a range of motions and deliver a high force-to-mass ratio whils...
Pneumatic soft actuators possess relatively fast response, inherent high flexibility, and achieve ex...
ABS T R A C T In recent years, soft pneumatic actuators with soft and flexible materials have been w...
Compliant pneumatic micro-actuators are interesting for applications requiring large strokes and for...
Inspired from nature, soft robots capable of actively tuning their mechanical rigidity can rapidly t...
An emerging topic in robotics research is the development of a robot with soft characteristics to pe...
Soft pneumatic actuators are usually fabricated using molding and casting techniques with silicone r...
In this work, we propose a novel type of 3D-printed soft pneumatic actuator that allows geometry-bas...
The field of soft robotics has emerged as a viable complement to conventional industrial robotics. S...
This thesis describes a unique mechanism – a soft rotary actuator – based on peristaltic motion and ...
Soft robotics is a growing field where scientists and engineers collaborate to design machines that ...