Research Article
Year 2023,
Volume: 7 Issue: 2, 322 - 327, 31.08.2023
Abstract
Today, lattice-structured materials are used in many engineering applications. Research and applications including lattice structures focused on obtaining lightweight components with the optimal distribution. In literature, studies on obtaining vibration models of the beams with lattice structures are limited. In this study, vibration models of rotating beams with lattice structure were obtained by using system identification methods. Beams used in the experimental phase of this study were produced using FDM 3D printer. Three types of lattice structure such as triangular, hexagonal, and square rotated were used. Lattice-based generative design program nTopology was used for the design of the beams. The experiments were carried out using a setup that includes a servo system and a wireless accelerometer. It was proved that the obtained models successfully represent the vibration behavior of the rotating beams. The success of the vibration models of the rotating beams was compared and discussed using tables and figures.
Keywords
Rotating beam System Identification Vibration Analysis Lattice Structures Additive Manufacturing
References
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- 13. Babamiri B.B., Barnes B., Soltani-Tehrani A., “Designing additively manufactured lattice structures based on deformation mechanisms”, Addit. Manuf. Vol. 46, Page 102143, 2021.
- 14. Dokuz M.E., Aydın M., Uyaner M., “Production of Bioactive Various Lattices as an Artificial Bone Tissue by Digital Light Processing 3D Printing”, J. Mater. Eng. Perform., Vol. 30, Issue 9, Pages 6938–6948, 2021.
- 15. Çantı E., Aydın M., “Effects of micro particle reinforcement on mechanical properties of 3D printed parts”, Rapid Prototyp J, Vol. 24, Issue 1, Pages 171–176, 2018.
- 16. İlman M.M., Yavuz Ş., Karagülle H., Uysal A., “Hybrid vibration control of an industrial CFRP composite robot-manipulator system based on reduced order model”, Simulation Modelling Practice and Theory, Vol. 115, Page 102456, 2022.
- 17. Özbaltan M., Berthier N., “Exercising symbolic discrete control for designing low-power hardware circuits: an application to clock-gating”, IFACPapersOnLine, Vol. 51 Pages 120–126, 2018.
- 18. Reynders E., “System Identification Methods for (Operational) Modal Analysis: Review and Comparison”, Arch Comput Methods Eng, Vol. 19 Pages 51–124, 2012.
- 19. Çaşka S., Gök K., Aydın M., Özdemir, İ., “Finite Element Method Based Structural Analysis of Quadcopter UAV Chassis Produced With 3D Printer”, Journal Of Science And Technology Of Dumlupınar University, Vol. 44, Pages 24-32, 2020.
- 20. Rashid R., Masood S., Ruan D., Palanisamy S., Huang X., Rahman R. R.A., “Design Optimization and Finite Element Model Validation of LPBF-Printed Lattice-Structured Beams”, Metals, Vol. 13, Pages 1-26, 2023.
Year 2023,
Volume: 7 Issue: 2, 322 - 327, 31.08.2023
Abstract
References
- 1. De Luca A., Book W.J., “Robots with Flexible Elements BT - Springer Handbook of Robotics”, Pages 243–282, Springer International Publishing, Cham., 2016.
- 2. De Luca A., “Flexible Robots BT Encyclopedia of Systems and Control”, Pages 814–822, Springer International Publishing, Cham, 2021.
- 3. Yavuz Ş., İlman M.M., “Stress and rigidity comparison and improved vibration control of flexible carbon-fiber and epoxy-glass composite manipulators under end-point load”, Mater Res Express, Vol. 6, Issue 3, 2018.
- 4. İlman M.M., Yavuz Ş, Karagülle H., Uysal A., “Hybrid vibration control of an industrial CFRP composite robot-manipulator system based on reduced order model”, Simul Model Pract Theory, Vol. 115, Page 102456, 2022.
- 5. Kaya M.O., “Free vibration analysis of a rotating Timoshenko beam by differential transform method” Aircr Eng Aerosp Technol, Vol. 78, Issue 3, Pages 194–203, 2006.
- 6. Ergene B. “Çatlak Derinliğinin ve Fiber Açısının Karbon Fiber Takviyeli Polimer Kompozit Kirişin Titreşim Davranışına Etkisinin Sonlu Elemanlar Analizi Yöntemi ile Belirlenmesi” Int. J. of 3D Printing Tech. Dig. Ind., Cilt 5, Sayı 2, Sayfa 120-129, 2021.
- 7. Shao M., Huang Y., Silberschmidt V. V. (2020) “Intelligent Manipulator with Flexible Link and Joint: Modeling and Vibration Control”, Shock Vib., Vol. 2020, Page 4671358, 2020.
- 8. Yavuz Ş., Karagülle H., “Analysis of vibration control of a single-link epoxy-glass composite manipulator by FFT method”, J. Fac. Eng. Archit. Gazi Univ. Vol. 36, Issue 2, Pages 685–699, 2021.
- 9. Ayyad A., Chehadeh M., Awad M.I., Zweiri Y. “Real-Time System Identification Using Deep Learning for Linear Processes with Application to Unmanned Aerial Vehicles”, IEEE Access Vol. 8 Pages 122539–122553, 2020.
- 10. Ali A.A., Lateef R.A.R., Saeed M.W., “Intelligent tuning of vibration mitigation process for single link manipulator using fuzzy logic”, Eng. Sci. Technol. An. Int. J. Vol. 20, Issue 4, Pages 1233–1241, 2017.
- 11. Woodward I.R., Fromen C.A., “Scalable, process-oriented beam lattices: Generation, characterization, and compensation for open cellular structures”, Addit. Manuf., Vol. 48, Issue A, Pages 102386 2021.
- 12. Li M., Zhu H., Lai C., Bao W., Han H., Lin R., He W., Fan H., “Recent progresses in lightweight carbon fiber reinforced lattice cylindrical shells”, Vol. 135, Pages 100860, 2022.
- 13. Babamiri B.B., Barnes B., Soltani-Tehrani A., “Designing additively manufactured lattice structures based on deformation mechanisms”, Addit. Manuf. Vol. 46, Page 102143, 2021.
- 14. Dokuz M.E., Aydın M., Uyaner M., “Production of Bioactive Various Lattices as an Artificial Bone Tissue by Digital Light Processing 3D Printing”, J. Mater. Eng. Perform., Vol. 30, Issue 9, Pages 6938–6948, 2021.
- 15. Çantı E., Aydın M., “Effects of micro particle reinforcement on mechanical properties of 3D printed parts”, Rapid Prototyp J, Vol. 24, Issue 1, Pages 171–176, 2018.
- 16. İlman M.M., Yavuz Ş., Karagülle H., Uysal A., “Hybrid vibration control of an industrial CFRP composite robot-manipulator system based on reduced order model”, Simulation Modelling Practice and Theory, Vol. 115, Page 102456, 2022.
- 17. Özbaltan M., Berthier N., “Exercising symbolic discrete control for designing low-power hardware circuits: an application to clock-gating”, IFACPapersOnLine, Vol. 51 Pages 120–126, 2018.
- 18. Reynders E., “System Identification Methods for (Operational) Modal Analysis: Review and Comparison”, Arch Comput Methods Eng, Vol. 19 Pages 51–124, 2012.
- 19. Çaşka S., Gök K., Aydın M., Özdemir, İ., “Finite Element Method Based Structural Analysis of Quadcopter UAV Chassis Produced With 3D Printer”, Journal Of Science And Technology Of Dumlupınar University, Vol. 44, Pages 24-32, 2020.
- 20. Rashid R., Masood S., Ruan D., Palanisamy S., Huang X., Rahman R. R.A., “Design Optimization and Finite Element Model Validation of LPBF-Printed Lattice-Structured Beams”, Metals, Vol. 13, Pages 1-26, 2023.
There are 20 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Mechanical Engineering (Other) |
| Journal Section | Research Article |
| Authors | |
| Publication Date | August 31, 2023 |
| Submission Date | July 10, 2023 |
| Published in Issue | Year 2023 Volume: 7 Issue: 2 |
Cite
International Journal of 3D Printing Technologies and Digital Industry is lisenced under Creative Commons Atıf-GayriTicari 4.0 Uluslararası Lisansı