TWO-STEP OPTIMUM DESIGN OF A SIX-AXIS LOADING DEVICE WITH PARALLEL MECHANISM CONSIDERING DYNAMIC COUPLING, 498-511.

Ruijie Zhang, Jun Wu, Chongdeng Wu, and Qi Li

References

1. [1] J.Z. Guo, D. Wang, W.Y. Chen, and R. Fan, Multiaxis loadingdevice for reliability tests of machine tools, IEEE-ASMETransactions on Mechatronics, 23(4), 2018, 1930–1940.
2. [2] M. Baur, P. Albertelli, and M. Monno, A review of prognosticsand health management of machine tools, International Journalof Advanced Manufacturing Technology, 107(5–6), 2020, 2843–2863.
3. [3] Z. Yang, F. Chen, W. Luo, B.B. Xu, and S. Wang, Reliabilitytest rig of the motorized spindle and improvements on its abilityfor high-speed and long-term tests, Shock and Vibration, 2021,6637335.
4. [4] J. Wu, B. Zhang, L. Wang, and G. Yu, An iterative learningmethod for realizing accurate dynamic feedforward controlof an industrial hybrid robot, Science China TechnologicalSciences, 64(6), 2021, 1177–1188.509
5. [5] G.Y. Huang, D. Zhang, S. Guo, and H.B. Qu, Structuralsynthesis of a class of reconfigurable parallel manipulatorsbased on over-constrained mechanisms, International Journalof Robotics & Automation, 34(2), 2019, 183–193.
6. [6] I.A. Stokes, M. Gardme-Morse, D. Churchill, and J.P. Laible,Measurement of a spinal motion segment stiffness matrix,Journal of Biomechanics, 35(4), 2002, 517–521.
7. [7] M. Nierenberger, M. Poncelet, S. Pattofatto, A. Hamouche,B. Raka, and M. Virely, Multiaxial testing of materials usinga Stewart platform: Case study of the Nooru-Mohamed test,Experimental Techniques. 38(2), 2012, 74–83.
8. [8] J.L. Flohic, V. Parpoll, S. Bouissou, M. Poncelet, and H.Leclerc, A 3D displacement control by digital image correlationfor the multiaxial testing of materials with a Stewart platform,Experimental Mechanics, 54(5), 2014, 817–828.
9. [9] A. Carpiuc-Prisacari, M. Poncelet, K. Kazymyrenko, H.Leclerc, and F. Hild, A complex mixed-mode crack propaga-tion test performed with a 6-axis testing machine and full-fieldmeasurements, Engineering Fracture Mechanics, 176, 2017,1–22.
10. [10] D. Wang, R. Fan, and W. Chen, Stiffness analysis of a hexaglideparallel loading mechanism, Mechanism and Machine Theory,70, 2013, 454–473.
11. [11] J.Z. Guo, D. Wang, R. Fan, W.Y. Chen, and G.H. Zhao, Devel-opment of a material testing machine with multi-dimensionalloading capability, Journal of Advanced Mechanical DesignSystems and Manufacturing. 10(2), 2016, 15–00689.
12. [12] R. Ramkumar, C. Karthikeyan, and A.K. Dash, A newworkspace analysis method for 6-DOF 3-RRRS parallel ma-nipulators, International Journal of Robotics & Automation,34(2), 2019, 135–145.
13. [13] A. Rosyid, B. El-Khasawneh, and A. Alazzam, Review article:Performance measures of parallel kinematics manipulators,Mechanical Sciences, 11(1), 2020, 49–73.
14. [14] C.M. Gosselin and J. Angeles, The optimum kinematic designof a spherical three degree-of-freedom parallel manipulator,ASME Journal of Mechanisms, Transmissions, and Automa-tion in Design, 111, 1989, 202–207.
15. [15] H.S. Kim and L.W. Tsai, Design optimization of a Cartesianparallel manipulator, Journal of Mechanical Design, 125(1),2003, 43–51.
16. [16] Y.Q. Zhao, J.P. Mei, W.T. Niu, M.K. Wu, and F. Zhang,Coupling analysis of a 5-degree-of-freedom hybrid manipulatorbased on a global index. Science Progress, 103(1), 2020. doi:10.1177/0036850419881896.
17. [17] Z. Gao, D. Zhang, and Y. Ge, Design optimization of a spa-tial six degree-of-freedom parallel manipulator based on artifi-cial intelligence approaches, Robotics and Computer-IntegratedManufacturing, 26, 2010, 180–189.
18. [18] B.K. Rout and R.K. Mittal, Parametric design optimizationof 2-DOF R-R planar manipulator — A design of experimentapproach, Robotics and Computer-Integrated Manufacturing,24, 2008, 239–248.
19. [19] M. Stock and K. Miller, Optimal kinematic design of spatialparallel manipulators: application to linear delta robot, ASMEJournal of Mechanical Design, 125, 2003, 292–301.
20. [20] D. Liang, Y. Song, T. Sun, and G. Dong, Optimum design of anovel redundantly actuated parallel manipulator with multipleactuation modes for high kinematic and dynamic performance,Nonlinear Dynamics, 83(1–2), 2016, 631–658.
21. [21] L. Wang, Z. Zhang, Z. Shao, and X. Tang, Analysis andoptimization of a novel planar 5R parallel mechanism withvariable actuation modes, Robotics and Computer IntegratedManufacturing, 56, 2019, 178–190.
22. [22] Y. Huang, M.R. Fei, and W.J. Zhou, Enhanced MOEA/Dfor trajectory planning improvement of robot manipulator,International Journal of Robotics & Automation, 36(2), 2021,91–102.
23. [23] J. Wu, X. Wang, B. Zhang, and T. Huang, Multi-objectiveoptimal design of a novel 6-DOF spray-painting robot, Robotica,39(12), 2021, 2268–2282.
24. [24] J. Choi, K. Kim, and H.Y. Kim, Kinetics and multi-body dynamics simulation of parallel delta robot, Inter-national Journal of Robotics & Automation, 36(5), 2021,292–303.
25. [25] X.J. Liu, J.S. Wang, and J. Kim, Determination of the linklengths for a spatial 3-DOF parallel manipulator, Journal ofMechanical Design, 128(2), 2006, 365–373.
26. [26] J. Wu, H. Ye, G. Yu, and T. Huang, A novel dynamicevaluation method and its application to a 4-DOF parallelmanipulator, Mechanism and Machine Theory, 168, 2022,104627.

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• Abstract
• DOI: 10.2316/J.2022.206-0689
• From Journal (206) International Journal of Robotics and Automation - 2022

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