Mechanical Sciences
Mechanical Sciences
Mechanical Sciences
Articles | Volume 10, issue 1
Articles | Volume 10, issue 1
https://doi.org/10.5194/ms-10-299-2019
© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.
https://doi.org/10.5194/ms-10-299-2019
© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.
Articles | Volume 10, issue 1
Research article
 | 
25 Jun 2019
Research article |  | 25 Jun 2019

Displacement amplification ratio modeling of bridge-type nano-positioners with input displacement loss

Jinyin Li, Peng Yan, and Jianming Li

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Cited articles

Chen, W., Lu, Q., Kong, C., Zhang, Y., and Zhang, Q.: Design, analysis and validation of the bridge-type displacement amplification mechanism with circular-axis leaf-type flexure hinges for micro-grasping system, Microsystem Technologies, Springer Berlin Heidelberg, 1–8, https://doi.org/10.1007/s00542-018-4064-2, 2018. a
Clark, L., Shirinzadeh, B., Pinskier, J., Tian, Y., and Zhang, D.: Topology optimisation of bridge input structures with maximal amplification for design of flexure mechanisms, Mech. Mach. Theory, 122, 113–131, 2018. a
Hao, G.: A Multiaxis, Large-Output, Sensing Framework of Integrating Linear Optical Encoders for Nanopositioning Systems, IEEE Sensors Letters, 1,1–4, 2017. a
Kim, J. H., Kim, S. H., and Kwak, Y. K.: Development and optimization of 3-D bridge-type hinge mechanisms, Sensor Actuat. A-Phys., 116, 530–538, 2004. a
Koseki, Y., Tanikawa, T., Koyachi, N., and Arai, T.: Kinematic analysis of a translational 3-dof micro-parallel mechanism using the matrix method, Adv. Robotics, 16, 251–264, 2002. a
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Short summary
To better help the mechanical design and structural optimization of bridge-type nano-positioners, an improved model was developed to describe the displacement amplification of the bridge-type mechanism in this paper. Comparative studies and experiments indicate that the proposed method can better capture the amplification performance for such systems, which can be potentially used in the design and optimization of bridge-type nano-positioners.
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