Development of a 3D Printed Double-Acting Linear Pneumatic Actuator for the Tendon Gripping

Grgić, Ivan; Wertheimer, Vjekoslav; Karakašić, Mirko; Ivandić, Željko

doi:10.3390/polym13152528

Cited by 4 publications

(2 citation statements)

References 29 publications

(37 reference statements)

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“…To operate safely in unstructured environments and in collaboration with humans, a new generation of robots must be created; therefore, soft robots comprised of soft materials invented recently have a high degree of deformation, and their interactions with humans and objects are more flexible and compliant than those of traditional stiff robots [ 1 , 2 , 3 ]. In order to increase production efficiency, the agriculture, food, and medical industries must automate a number of complex grasping tasks involving fragile materials (such as grabbing fruits, vegetables, and biological tissue) [ 4 , 5 ].…”

Section: Introductionmentioning

confidence: 99%

A Variable Stiffness Electroadhesive Gripper Based on Low Melting Point Alloys

Xiang

Guan

2022

Polymers

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Electroadhesive grippers can be used to pick up a wide range of materials, and those with variable stiffness functionality can increase load capacity and strength. This paper proposes an electroadhesive gripper (VSEAF) with variable stiffness function and a simple construction based on low melting point alloys (LMPAs) with active form adaptation through pneumatic driving. Resistance wires provide active changing stiffness. For a case study, a three-fingered gripper was designed with three electroadhesive fingers of varied stiffness. It is envisaged that these electroadhesive grippers with variable stiffness would extend the preparation process and boost the use of electroadhesion in soft robot applications.

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Section: Introductionmentioning

confidence: 99%

A Variable Stiffness Electroadhesive Gripper Based on Low Melting Point Alloys

Xiang

Guan

2022

Polymers

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“…to successfully develop something new. The result and an example of such collaboration can be seen in [22][23][24][25][26][27][28]. The need to make this calibration device arose from the work presented in [21].…”

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confidence: 99%

The Development of a Gracilis and Quadriceps Tendons Calibration Device for Uniaxial Tensile Tests

et al. 2021

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To determine the biomechanical properties of the distal tendon of the gracilis muscle and the upper third of the quadriceps femoris muscle used for reconstruction of the medial patellofemoral ligament (MPFL), it is necessary to develop a calibration device for specimen preparation for uniaxial tensile tests. The need to develop this device also stems from the fact that there is currently no suitable regulatory or accurate protocol by which soft tissues such as tendons should be tested. In recent studies, various methods have been used to prepare test specimens, such as the use of different ratios of gauge lengths, different gripping techniques, etc., with the aim of obtaining measurable and comparable biomechanical tissue properties. Since tendons, as anisotropic materials, have viscoelastic properties, the guideline for manufacturing calibrator devices was the ISO 527-1:1993 standard, used for testing polymers, since they also have viscoelastic behaviour. The functionality of a calibrator device was investigated by preparing gracilis and quadriceps tendon samples. Fused deposition modeling (FDM) technology was used for the manufacturing of parts with complex geometry. The proposed calibrator could operate in two positions, horizontal and vertical. The maximum gauge length to be achieved was 60 mm, with the maximum tendon length of 120 mm. The average preparation time was 3 min per tendon. It was experimentally proven that it is possible to use a calibrator to prepare tendons for tensile tests. This research can help in the further development of soft tissue testing devices and also in the establishment of standards and exact protocols for their testing.

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