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Elastostatic analysis of a module-based shape morphing snake-like robot

Alessandro Cammarata, Pietro Davide Maddío, Rosario Sinatra, Yingzhong Tian, Yinjun Zhao, Fengfeng Xi

2024Mechanism and Machine Theory14 citationsDOIOpen Access PDF

Abstract

This paper describes the stiffness analysis of a module-based shape morphing snake-like robot. Snake-like robots have the characteristic of adapting to unstructured environments by exploiting their ability to reconfigure their body’s shape. However, the excellent mobility contrasts with the ability to transmit high loads, precluding its application in manufacturing operations. This article presents a hybrid structure based on reconfigurable modules equipped with lockable joints. The use of multiple modules in series allows for a large workspace. Furthermore, the parallel structure of the single modules provides for transferring or sustaining high loads. First, the reliability and precision of the theoretical model has been verified using finite element analysis (FEA). The relative errors are less than 5%. Then, a morphing module has been constructed as a physical demonstrator for the kinematic parameters and stiffness parameters used in elastostatic analysis. Finally, a five-segment prototype has been manufactured and tested. There is a deviation between the experimental results and the theoretical results due to manufacturing errors of the prototype but the trend of displacement change shown in the experimental results is basically consistent with the theoretical results.

Topics & Concepts

MorphingWorkspaceStiffnessRobotFinite element methodKinematicsDisplacement (psychology)Computer scienceReliability (semiconductor)Structural engineeringSimulationEngineeringArtificial intelligenceClassical mechanicsPhysicsQuantum mechanicsPsychotherapistPsychologyPower (physics)Soft Robotics and ApplicationsModular Robots and Swarm IntelligenceAdvanced Materials and Mechanics
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