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International Journal of Mechanics and Materials in Design
Erschienen in: International Journal of Mechanics and Materials in Design 1/2011

01.03.2011

Design optimization of a spatial hybrid mechanism for micromanipulation

verfasst von: Dan Zhang, Zhen Gao, Irene Fassi

Erschienen in: International Journal of Mechanics and Materials in Design | Ausgabe 1/2011

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Abstract

Traditional parallel manipulators suffer from errors due to backlash, hysteresis, and vibration in the mechanical joints. The hybrid mechanism is built through the reconfiguration of parallel-serial structure. In this paper, a new 3SPS + RPR spatial hybrid mechanism which has three degrees of freedom (DOF) and can generate motions in a microscopic scale is proposed. As a reliable compliant hybrid mechanism which provides micro/nano scale micromotion with high accuracy, it can be utilized for biomedical engineering and fiber optics industry. The detailed design of the structure is first introduced, followed by the kinematic analysis and performance evaluation. Based on the kinetostatic model, the joint and link compliances of the passive constraining leg are investigated. Second, a finite-element analysis of resultant stress, strain, and deformations is evaluated based upon different inputs of the three piezoelectric actuators. Finally, the genetic algorithms and radial basis function networks are implemented to search for the optimal architecture and behavior parameters in terms of global stiffness/compliance, dexterity and manipulability. The proposed analysis and optimization methodology is intuitive and effective that offers a constructive way for design optimization of the family of parallel/hybrid manipulators.
Vorheriger Artikel Development of a novel ultrasonic motor resonator using topology optimization
Nächster Artikel Transient solution of temperature field in functionally graded hollow cylinder with finite length using multi layered approach

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Metadaten
Titel
Design optimization of a spatial hybrid mechanism for micromanipulation
verfasst von
Dan Zhang
Zhen Gao
Irene Fassi
Publikationsdatum
01.03.2011
Verlag
Springer Netherlands
Erschienen in
International Journal of Mechanics and Materials in Design / Ausgabe 1/2011
Print ISSN: 1569-1713
Elektronische ISSN: 1573-8841
DOI
https://doi.org/10.1007/s10999-011-9149-3

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