Optimal design of a 1-rotational DOF flexure joint for a 3-DOF H-type stage

Kyoungchon Kim; Dahoon Ahn; Daegab Gweon

doi:10.1016/j.mechatronics.2011.10.002

Optimal design of a 1-rotational DOF flexure joint for a 3-DOF H-type stage

Kyoungchon Kim, Dahoon Ahn, Daegab Gweon

Dept. of Mechanical System and Design Engineering

Korea Advanced Institute of Science and Technology

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

A 3-DOF H-type stage using a flexure joint to accomplish rotational motion about the Z axis of a gantry stage is presented. To employ the rotational motion about the Z axis in an H-type stage, a 1-rotational DOF flexure joint is proposed. The proposed flexure joint in the H-type stage has high off-axis stiffness and adequate durability against high thrust force. A 6-DOF stiffness equation of the proposed flexure joint is obtained by analysis of leaf spring stiffness. To satisfy the required stage dynamic performance, the optimal design is executed on the geometric parameters of the proposed flexure joint using Sequential Quadratic Programing. The results of the optimal design are verified by experiment on the actual flexure joint.

Original language	English
Pages (from-to)	24-32
Number of pages	9
Journal	Mechatronics
Volume	22
Issue number	1
DOIs	https://doi.org/10.1016/j.mechatronics.2011.10.002
State	Published - Feb 2011

Keywords

6-DOF analytical stiffness equation
Flexure joint
H-type stage
Optimal design
System mode analysis

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10.1016/j.mechatronics.2011.10.002

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abstract = "A 3-DOF H-type stage using a flexure joint to accomplish rotational motion about the Z axis of a gantry stage is presented. To employ the rotational motion about the Z axis in an H-type stage, a 1-rotational DOF flexure joint is proposed. The proposed flexure joint in the H-type stage has high off-axis stiffness and adequate durability against high thrust force. A 6-DOF stiffness equation of the proposed flexure joint is obtained by analysis of leaf spring stiffness. To satisfy the required stage dynamic performance, the optimal design is executed on the geometric parameters of the proposed flexure joint using Sequential Quadratic Programing. The results of the optimal design are verified by experiment on the actual flexure joint.",

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AU - Kim, Kyoungchon

AU - Ahn, Dahoon

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N2 - A 3-DOF H-type stage using a flexure joint to accomplish rotational motion about the Z axis of a gantry stage is presented. To employ the rotational motion about the Z axis in an H-type stage, a 1-rotational DOF flexure joint is proposed. The proposed flexure joint in the H-type stage has high off-axis stiffness and adequate durability against high thrust force. A 6-DOF stiffness equation of the proposed flexure joint is obtained by analysis of leaf spring stiffness. To satisfy the required stage dynamic performance, the optimal design is executed on the geometric parameters of the proposed flexure joint using Sequential Quadratic Programing. The results of the optimal design are verified by experiment on the actual flexure joint.

AB - A 3-DOF H-type stage using a flexure joint to accomplish rotational motion about the Z axis of a gantry stage is presented. To employ the rotational motion about the Z axis in an H-type stage, a 1-rotational DOF flexure joint is proposed. The proposed flexure joint in the H-type stage has high off-axis stiffness and adequate durability against high thrust force. A 6-DOF stiffness equation of the proposed flexure joint is obtained by analysis of leaf spring stiffness. To satisfy the required stage dynamic performance, the optimal design is executed on the geometric parameters of the proposed flexure joint using Sequential Quadratic Programing. The results of the optimal design are verified by experiment on the actual flexure joint.

KW - 6-DOF analytical stiffness equation

KW - Flexure joint

KW - H-type stage

KW - Optimal design

KW - System mode analysis

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JO - Mechatronics

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Optimal design of a 1-rotational DOF flexure joint for a 3-DOF H-type stage

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Keywords

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