Your search keyword '"Wanghu Zhan"' showing total 7 results

1. Topology optimization of three-translational degree-of-freedom spatial compliant mechanism

Author

Dachang Zhu, Yanping Feng, and Wanghu Zhan

Subjects

Mechanical engineering and machinery, TJ1-1570

Abstract

Considering that the Jacobian matrix maps the velocity of the joint space of the robot to the end velocity of the Cartesian space, a novel topology optimization approach is proposed in this article for the design of three-translational degree-of-freedom spatial compliant mechanisms by combining the optimized Jacobian mapping matrix with the solid isotropic material with penalization topological method. First, by using the condition number method, the structural parameters of Universal-Prismatic-Universal (UPU)-type parallel prototype manipulator are optimized, and then, the differential Jacobian mapping matrix is calculated by using equivalent infinitesimal method. Second, comparing with the driver configuration and twist/wrench constraint conditions of the UPU-type parallel prototype manipulator, the topological algorithm combining solid isotropic material with penalization with optimized Jacobian mapping matrix is proposed. Finally, a novel spatial compliant mechanism with three-translational degree-of-freedom is derived, and numerical simulation results are reported to demonstrate the effectiveness of the proposed method.

Published

2019

2. Topology Optimization of Spatially Compliant Mechanisms with an Isomorphic Matrix of a 3-UPC Type Parallel Prototype Manipulator

Author

Dachang Zhu, Wanghu Zhan, Fupei Wu, and Alessandro Simeone

Subjects

compliant mechanisms, topology optimization, isomorphic mapping matrix, 3-UPC type parallel prototype manipulator, solid isotropic material with penalization (SIMP), Mechanical engineering and machinery, TJ1-1570

Abstract

A novel topology optimization approach is proposed in this paper for the design of three rotational degree-of-freedom (DOF) spatially compliant mechanisms, combining the Jacobian isomorphic mapping matrix with the solid isotropic material with penalization (SIMP) topological method. In this approach, the isomorphic Jacobian matrix of a 3-UPC (U: universal joint, P: prismatic joint, C: cylindrical joint) type parallel prototype manipulator is formulated. Subsequently, the orthogonal triangular decomposition and differential kinematic method is applied to uncouple the Jacobian matrix to construct a constraint for topology optimization. Firstly, with respect to the 3-UPC type parallel prototype manipulator, the Jacobian matrix is derived to map the inputs and outputs to be used for initializing the topology optimization process. Secondly, the orthogonal triangular decomposition with the differential kinematic method is used to reconstruct the uncoupled mapping matrix to derive the 3-UPC type parallel prototype manipulator. Finally, a combination of the solid isotropic material with penalization (SIMP) method and the isomorphic mapping matrix is applied to construct the topological model. A typical three rotational DOF spatially compliant mechanism is reported as a numerical example to demonstrate the effectiveness of the proposed method.

Published

2018

3. Optimal design method for 3-DOF planar compliant mechanisms based on mapping matrix constraints

Author

Wanghu Zhan, He Xianghua, Lai Junhao, Yang Jiamou, and Dachang Zhu

Subjects

Optimal design, Computer science, Modal analysis, Topology optimization, 0211 other engineering and technologies, Compliant mechanism, Process (computing), 020101 civil engineering, 02 engineering and technology, Building and Construction, 0201 civil engineering, Matrix (mathematics), Planar, 021105 building & construction, Architecture, Design process, Safety, Risk, Reliability and Quality, Algorithm, Civil and Structural Engineering

Abstract

The mapping matrix cannot be given in advance when using traditional topology optimization method (TOM) to design compliant mechanism (CM), which makes the CM unable to accurately establish model and affects the mechanism precise control. In this paper, a design method for CM is proposed based on planar parallel prototype mechanism with optimal structural parameters, the mapping matrix under the optimal structural parameter reasonably modified as the desired mapping matrix of CM in the process of topology optimization. Based on the idea of linear regression, the difference between the actual mapping matrix of the CM and the expected mapping matrix is constrained to makes the actual mapping matrix of the CM approach the expected mapping matrix gradually in the optimization process, take the low order modal frequency of the mechanism as objective, and finally obtains the CM that meets the design requirements. Experimental and simulation results show that take the mapping matrix as constraint in CM design process can achieve the consistency of differential motion between the CM and the parallel prototype mechanism within a range of deviation, which indicates that the method is effective for the design of CM and provides a foundation for the follow-up research of CM.

Published

2020

4. Topology optimization of a 6-DOF spatial compliant mechanism based on Stewart propotype platform

Author

Wanghu Zhan and Dachang Zhu

Subjects

Computer science, Mechanical Engineering, Topology optimization, Computational Mechanics, Compliant mechanism, Stiffness, 02 engineering and technology, Kinematics, Topology, 01 natural sciences, 010305 fluids & plasmas, Computer Science::Robotics, symbols.namesake, Matrix (mathematics), 020401 chemical engineering, 0103 physical sciences, Jacobian matrix and determinant, symbols, medicine, 0204 chemical engineering, medicine.symptom, Eigenvalues and eigenvectors, Differential (mathematics), ComputingMethodologies_COMPUTERGRAPHICS

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. Combining the isomorphic mapping matrix with the solid isotropic material with the penalization topology optimization method, the topological model of the 6-DOF spatial compliant mechanism is constructed, and a topological structure of the 6-DOF spatial compliant mechanism is derived which has the same differential kinematic characteristics as the Gough–Stewart prototype platform. Piezoelectric actuators are mounted inside the topological structure during the three-dimensional printing manufacturing process, and its driver directions are in accordance with the driver configuration directions of the Gough–Stewart prototype platform. The effectiveness of the proposed method for topological structure synthesis of the 6-DOF spatial compliant mechanism is demonstrated through several numerical examples and experimental studies.

Published

2019

5. Isomorphic Jacobian matrix of parallel prototype manipulator for micro/nano scale compliant mechanism

Author

Yanping, Feng, primary, Dachang, Zhu, additional, Chunliang, Zhang, additional, and Wanghu, Zhan, additional

Published

2018

6. Design Method of Three-Rotation and Translation Spatial Full Compliant Mechanism

Author

He Xianghua, Dachang Zhu, and Wanghu Zhan

Subjects

Physics, 021103 operations research, 0211 other engineering and technologies, Compliant mechanism, 020101 civil engineering, 02 engineering and technology, Topology, Translation (geometry), Rotation, 0201 civil engineering

Published

2018

7. Design Method of Three-Rotation and Translation Spatial Full Compliant Mechanism.

Author

Dachang Zhu, Wanghu Zhan, and Xianghua He

Published

2018