Design and Optimization of a Magnetic Field Exciter for Controlling Magnetorheological Fluid in a Hybrid Soft-Rigid Jaw Gripper

Białek, Marcin; Jędryczka, Cezary

doi:10.3390/en16052299

Cited by 5 publications

(4 citation statements)

References 45 publications

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“…The Lagrange equation represents the difference between kinetic and potential energy, as shown in Equation (2).…”

Section: Mathematical Model Using Lagrangian Mechanicsmentioning

confidence: 99%

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Transportation of Objects on an Inclined Plane Oscillating in the Longitudinal Direction Applying Dynamic Dry Friction Manipulations

El Banna,

Liutkauskienė,

Lukoševičius

et al. 2024

Applied Sciences

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A transportation system requires an asymmetry to achieve objects’ motion on an oscillating surface. Transportation methods based on vibrational techniques usually employ different types of asymmetries, such as temporal (time) asymmetry, kinematic asymmetry, wave asymmetry or power asymmetry. However, transporting an object on an inclined angle requires a relatively high net frictional force over each period of vibrational cycles due to the gravitational potential energy exerted on the object. This paper investigates the transportation of an object upward on an inclined plane that harmonically oscillates in its longitudinal direction. The novelty of this research is attributed to the upward motion of the object on the inclined plane, which is achieved by creating an additional asymmetry of the system through dry friction dynamic manipulations. For this reason, periodic dynamic dry friction manipulations have been employed to create the asymmetry of frictional conditions, resulting in a net frictional force that outweighs the gravitational force. A mathematical model has been developed using the Lagrange method, which describes the moving object’s motion. Moreover, the theoretical findings and results confirmed that the object’s velocity and direction can be controlled by dynamic dry friction manipulations. To demonstrate the technical feasibility of the proposed method, an experimental investigation was carried out where the results demonstrated that the control parameters significantly influence the characteristics of the directional motion of the moving object. This transportation method is beneficial for various modern industries engaged in transportation and manipulation tasks with objects spanning a broad range of sizes, including those operating at small scales for applications in lab-on-a-chip technology, micro-assembly lines, micro-feeder systems and other delicate component manipulation systems. The presented research advances the classical theories of vibrational transportation on inclined surfaces.

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“…The Lagrange equation represents the difference between kinetic and potential energy, as shown in Equation (2).…”

Section: Mathematical Model Using Lagrangian Mechanicsmentioning

confidence: 99%

“…Transport and manipulation of various objects can be implemented using various methods and approaches. The usage of vibrational transport has significantly increased in several disciplines and sectors, such as micro-machine technology, biotechnology, cell biology, material processing, semiconductors and neuroscience [1][2][3].…”

Section: Introductionmentioning

confidence: 99%

Transportation of Objects on an Inclined Plane Oscillating in the Longitudinal Direction Applying Dynamic Dry Friction Manipulations

El Banna,

Liutkauskienė,

Lukoševičius

et al. 2024

Applied Sciences

View full text Add to dashboard Cite

show abstract

“…Therefore, the velocity of the part can be controlled using these parameters. In this study, the average velocity is calculated by finding the path traveled (Figure 1, (7)) and dividing it by the time of traveling:…”

Section: Dynamic and Mathematical Models Of The Motion Of A Part On A...mentioning

confidence: 99%

“…The directional movement of parts is required to perform stages such as feeding, positioning, or manipulation. Typically, various manipulators [1][2][3][4][5], grippers [6,7], sophisticated robots [8][9][10], and other assembly and positioning devices are employed to implement assembly operations through passive [11][12][13], active [14][15][16][17], and hybrid [18] approaches.…”

Section: Introductionmentioning

confidence: 99%

Investigation of the Motion Characteristics of Parts on a Platform Subjected to Planar Oscillations

Kilikevičius,

Liutkauskienė,

Česnavičius

et al. 2023

Applied Sciences

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Positioning applications are very important in a variety of industrial processes, including automatic assembly. This paper proposes a technique for positioning applications that involves employing a platform subjected to planar oscillations along circular, elliptical, and complex trajectories. Dynamic and mathematical models of the motion of a part on the platform were developed to investigate the motion characteristics of the part. The research showed that when the platform was excited in two perpendicular directions by sinusoidal waves, different trajectories of the part’s motion could be obtained by controlling excitation parameters such as the frequencies and amplitudes of the waves and the phase shift between the waves. Furthermore, by adjusting these parameters, the average displacement velocity of the part could be controlled. The results demonstrate that the part can be moved in any direction at a given velocity and can be subjected to complex dense positioning trajectories. Therefore, such a platform can be applied in feeding, positioning, and manipulation tasks.

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Magnetorheological Fluid for Adaptive Soft Robotics

Li,

Sun,

Gong

et al. 2025

IEEE Robot. Autom. Lett.

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Design and Optimization of a Magnetic Field Exciter for Controlling Magnetorheological Fluid in a Hybrid Soft-Rigid Jaw Gripper

Cited by 5 publications

References 45 publications

Transportation of Objects on an Inclined Plane Oscillating in the Longitudinal Direction Applying Dynamic Dry Friction Manipulations

Transportation of Objects on an Inclined Plane Oscillating in the Longitudinal Direction Applying Dynamic Dry Friction Manipulations

Investigation of the Motion Characteristics of Parts on a Platform Subjected to Planar Oscillations

Magnetorheological Fluid for Adaptive Soft Robotics

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