Xu, 2015 - Google Patents
Design of a constant-force flexure micropositioning stage with long strokeXu, 2015
- Document ID
- 7627539003181518635
- Author
- Xu Q
- Publication year
- Publication venue
- International Design Engineering Technical Conferences and Computers and Information in Engineering Conference
External Links
Snippet
This paper presents the design and analysis a flexure-guided compliant micropositioning stage with constant force and large stroke. The constant force output is achieved by combining a bistable flexure mechanism with a positive-stiffness flexure mechanism. In …
- 238000004458 analytical method 0 abstract description 10
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Xu | Design of a large-stroke bistable mechanism for the application in constant-force micropositioning stage | |
| Wang et al. | Design of a flexure-based constant-force XY precision positioning stage | |
| Wan et al. | Design and analysis of a new compliant XY micropositioning stage based on Roberts mechanism | |
| Wang et al. | Design of a piezoelectric-actuated microgripper with a three-stage flexure-based amplification | |
| Lin et al. | Kinematic characteristic analysis of a micro-/nano positioning stage based on bridge-type amplifier | |
| Awtar et al. | An XYZ parallel-kinematic flexure mechanism with geometrically decoupled degrees of freedom | |
| Li et al. | Design, analysis and simulation of a novel 3-DOF translational micromanipulator based on the PRB model | |
| Ling | A general two-port dynamic stiffness model and static/dynamic comparison for three bridge-type flexure displacement amplifiers | |
| Zhang et al. | Design and testing of a new 3-DOF spatial flexure parallel micropositioning stage | |
| Gan et al. | Design of a compliant adjustable constant-force gripper based on circular beams | |
| Zhu et al. | Design and test of a compact compliant gripper using the Scott–Russell mechanism | |
| Zhang et al. | Design and analysis of a 2-DOF compliant gripper with constant-force flexure mechanism | |
| Zhang et al. | Design and development of a new 3-DOF active-type constant-force compliant parallel stage | |
| Chen et al. | Design, modeling and test of a novel compliant orthogonal displacement amplification mechanism for the compact micro-grasping system | |
| Ding et al. | Design and analysis of a decoupled XY micro compliant parallel manipulator | |
| Xu | Mechanism design and analysis of a novel 2-DOF compliant modular microgripper | |
| Zhou et al. | A bistable mechanism with linear negative stiffness and large in-plane lateral stiffness: design, modeling and case studies | |
| Liu et al. | Design, analysis and evaluation of a self-lockable constant-force compliant gripper | |
| Kalpathy Venkiteswaran et al. | Pseudo-rigid-body models of initially-curved and straight beams for designing compliant mechanisms | |
| Li et al. | Nonlinear behaviour design using the kinematic singularity of a general type of double-slider four-bar linkage | |
| Chen et al. | Design, analysis and validation of the bridge-type displacement amplification mechanism with circular-axis leaf-type flexure hinges for micro-grasping system | |
| Zhang et al. | Design of a new flexure-based XYZ parallel nanopositioning stage | |
| Rad et al. | Design and stiffness analysis of a compliant spherical chain with three degrees of freedom | |
| Xiao et al. | Design and analysis of a novel micro-gripper with completely parallel movement of gripping arms | |
| Wang et al. | Stiffness analysis of corrugated flexure beam used in compliant mechanisms |