2019
DOI: 10.1007/s10409-019-00877-8
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Topology optimization of a 6-DOF spatial compliant mechanism based on Stewart propotype platform

Abstract: To improve the global stiffness and conveniently build a model of a compliant mechanism with spatial multiple degrees of freedom (DOF), the topology optimization method, combined with the isomorphic mapping matrix, is proposed in this paper for structure synthesis of a 6-DOF spatial compliant mechanism. By using the differential approximation method, the Jacobian matrix of the Stewart prototype platform is calculated as the isomorphic mapping matrix, and its eigenvalues and eigenvectors are considered. Combini… Show more

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Cited by 9 publications
(3 citation statements)
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“…Therefore, two working modes, micro-motion and macromotion were captured with the reachable workspaces of 140µm × 140µm × 135µm, and 9.7mm × 9.7mm × 9.5mm, respectively. Implementing topology optimization, the model of a six-DOF spatial compliant monolithic system with a submicron workspace was constructed [27], which had the same differential kinematic characteristics as the Gough-Stewart prototype platform. A small range non-monolithic six-DOF micropositioner based on a compliant mechanism with the overall dimension of 241 × 241 × 67mm 3 , and driving with 8 PEAs was introduced [28].…”
Section: Introductionmentioning
confidence: 99%
“…Therefore, two working modes, micro-motion and macromotion were captured with the reachable workspaces of 140µm × 140µm × 135µm, and 9.7mm × 9.7mm × 9.5mm, respectively. Implementing topology optimization, the model of a six-DOF spatial compliant monolithic system with a submicron workspace was constructed [27], which had the same differential kinematic characteristics as the Gough-Stewart prototype platform. A small range non-monolithic six-DOF micropositioner based on a compliant mechanism with the overall dimension of 241 × 241 × 67mm 3 , and driving with 8 PEAs was introduced [28].…”
Section: Introductionmentioning
confidence: 99%
“…The solid body kinematics model of the three-PRS was established. Zhu [22] synthesized a six degrees of freedom spatial compliant mechanism combined the topology optimization method with the isomorphic mapping matrix. The geometry after topology optimization was not standardized, and the establishment of the model was relatively difficult.…”
Section: Introductionmentioning
confidence: 99%
“…In [10], the maximum workspace of the robot is obtained according to constraints imposed by the surrounding settings. In [11], the topology optimization is proposed to improve the global stiffness. In [12,13], typical non-dimensional performance indices were used to optimize the geometric parameters of a 3-DOF parallel kinematic structure.…”
Section: Introductionmentioning
confidence: 99%