A variety of shape-morphing actuators are adopted as an essential element of soft robots. While most of the existing actuators morph in a single mode, e.g., bending, twisting, or stretching, under a single stimulus, here we report a soft actuation technology that can achieve multiple morphing modes under a single stimulus with different intensities. A pneu-net system with soft chambers of different cross-sectional areas or wall materials is actuated at a relatively softer region first, but increasing the actuation pressure does not bulge the chamber indefinitely. Rather, the strain-hardening effects of hyperelastic elastomers stop the initially actuated chamber from swelling. The increased pressure actuates the remaining chambers that have ...
Soft pneumatic actuators can produce a range of motions and deliver a high force-to-mass ratio whils...
In emerging soft robotics, a pneumatic actuator is the most common way to actuate soft robots which ...
Having to interact with people or dynamic environments, modern robots cannot rely anymore on rigid l...
Pneu-Nets, or pneumatic networks have widely been used as extremely light soft actuators capable of ...
Pneumatic soft actuators possess relatively fast response, inherent high flexibility, and achieve ex...
International audienceInspired by living organisms, soft robots are developed from intrinsically com...
2022 Summer.Includes bibliographical references.Soft robots are a new type of robot with deformable ...
Soft pneumatic actuators promise simple, adaptable, and safe manipulation, but the nature of pneumat...
Pneumatic actuators (referred to as pneu-nets) are drawing increasing attention due to their high cu...
The new generation of bio-inspired robots is constructed from soft materials. The low mechanical sti...
In recent years, soft pneumatic actuators with soft and flexible materials have been widely studied ...
Inspired from nature, soft robots capable of actively tuning their mechanical rigidity can rapidly t...
Soft robotics is a growing field where scientists and engineers collaborate to design machines that ...
© Springer-Verlag Berlin Heidelberg 2014. The impressive agility of living systems seems to stem fro...
Biologic organisms demonstrate that many of their capabilities are related to softness of their body...
Soft pneumatic actuators can produce a range of motions and deliver a high force-to-mass ratio whils...
In emerging soft robotics, a pneumatic actuator is the most common way to actuate soft robots which ...
Having to interact with people or dynamic environments, modern robots cannot rely anymore on rigid l...
Pneu-Nets, or pneumatic networks have widely been used as extremely light soft actuators capable of ...
Pneumatic soft actuators possess relatively fast response, inherent high flexibility, and achieve ex...
International audienceInspired by living organisms, soft robots are developed from intrinsically com...
2022 Summer.Includes bibliographical references.Soft robots are a new type of robot with deformable ...
Soft pneumatic actuators promise simple, adaptable, and safe manipulation, but the nature of pneumat...
Pneumatic actuators (referred to as pneu-nets) are drawing increasing attention due to their high cu...
The new generation of bio-inspired robots is constructed from soft materials. The low mechanical sti...
In recent years, soft pneumatic actuators with soft and flexible materials have been widely studied ...
Inspired from nature, soft robots capable of actively tuning their mechanical rigidity can rapidly t...
Soft robotics is a growing field where scientists and engineers collaborate to design machines that ...
© Springer-Verlag Berlin Heidelberg 2014. The impressive agility of living systems seems to stem fro...
Biologic organisms demonstrate that many of their capabilities are related to softness of their body...
Soft pneumatic actuators can produce a range of motions and deliver a high force-to-mass ratio whils...
In emerging soft robotics, a pneumatic actuator is the most common way to actuate soft robots which ...
Having to interact with people or dynamic environments, modern robots cannot rely anymore on rigid l...