2022
DOI: 10.1002/adem.202101566
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Development and Performance Analysis of Pneumatic Soft‐Bodied Bionic Flipper

Abstract: The sea lion fore flipper has superior underwater movement performance. Its structural characteristics and propulsion mechanism are drawn, combined with the large deformation and hyperelastic properties of silicone, a pneumatic soft‐bodied bionic flipper with strong underwater mobility, good environmental adaptability, and flexible attitude transformation. Based on Yeoh's second‐order constitutive model of silicone, the nonlinear dynamic analysis of the main limb of the bionic flipper is carried out, and the d… Show more

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Cited by 5 publications
(3 citation statements)
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“…To comprehensively improve the motion performance of the robot, the left-right swinging and dorsal-ventral motion functions are incorporated into the structural design of the robot, and the biological prototype propulsion mechanism of both types of tail movement is studied. It should be noted that this article is a continuation of our previous research findings, and we will not provide specific research on the biomimetic principle of the fore-flippers of the robot here [36].…”
Section: Research On Propulsion Mechanism Of Biological Prototypementioning
confidence: 99%
“…To comprehensively improve the motion performance of the robot, the left-right swinging and dorsal-ventral motion functions are incorporated into the structural design of the robot, and the biological prototype propulsion mechanism of both types of tail movement is studied. It should be noted that this article is a continuation of our previous research findings, and we will not provide specific research on the biomimetic principle of the fore-flippers of the robot here [36].…”
Section: Research On Propulsion Mechanism Of Biological Prototypementioning
confidence: 99%
“…For example, some studies have used negative pressure fluid to promote the recovery of the actuators [30][31][32], but it is not easy to work effectively in the recovery stage. Additionally, some work stresses the generation of bending motion by connecting multiple cavities in parallel [33][34][35][36][37]. However, it requires controlling the motion of the actuator in multichannel, which is not easy to operate.…”
Section: Introductionmentioning
confidence: 99%
“…FIGURE 1: Diagrams of the origami-inspired flexible telescopic actuator[37] in (a) an extended state and (b) a retracted state.…”
mentioning
confidence: 99%