Research Article
Year 2023,
Volume: 7 Issue: 3, 371 - 377, 31.12.2023
Abstract
References
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- 11. Zhao, M., Li, X., Zhang, D.Z. and Zhai, W., “Design, mechanical properties and optimization of lattice structures with hollow prismatic struts”, International Journal of Mechanical Sciences, Vol. 238, Pages 1-19, 2023.
- 12. Xu, Z., Medori, E., Sarasini, F. and Razavi, N., “Quasi-static behavior of 3D printed lattice structures of various scales”, Procedia Structural Integrity, Vol. 33, Pages 578-585, 2021.
- 13. Sun, G., Fang, J., Tian, X., Li, G. and Li, Q, “Discrete robust optimization algorithm based on Taguchi method for structural crashworthiness design”, Expert Systems with Applications, Vol. 42, Issue 9, Pages 4482-4492, 2015.
- 14. Nalbant, M., Gökkaya, H., and Sur, G., “Application of Taguchi method in the optimization of cutting parameters for surface roughness in turning”. Materials & Design, Vol. 28, Issue 4, Pages 1379-1385, 2007.
- 15. Surace, R., De Filippis, L.A.C., Ludovico, A.D. and Boghetich, G., “Application of Taguchi method for the multi-objective optimization of aluminium foam manufacturing parameters”, International Journal of Material Forming, Vol. 3, Issue 1, Pages 1-5, 2010.
INVESTIGATING ENERGY ABSORPTION CAPABILITY OF ADDITIVELY MANUFACTURED CUBOCTAHEDRAL LATTICE STRUCTURES VIA TAGUCHI’S METHOD: EFFECTS OF PROCESS PARAMETERS
Abstract
This research aims to investigate the influence of process parameters of fused filament deposition additive manufacturing technique on the energy absorption capacity of cuboctahedral lattice structures using Taguchi’s method. Four process parameters (i.e., print temperature, print speed, layer thickness, and line width) were considered with three levels of parameter values for each, which resulted in nine combinations in Taguchi’s L9 orthogonal array. The lattice structure was fabricated with each of nine combinations of process parameters and tested under a compression load to obtain the energy absorption experimentally. Signal-to-noise ratio analysis was conducted for the results obtained from the experiments of the nine Taguchi sets. Two more lattice specimens were fabricated with the parameter values which resulted in the best and worst energy absorption results and tested. The optimum values of the print temperature, print speed, layer thickness, and line width were determined to be 225 ºC, 30 mm/s, 0.12 mm, and 0.35 mm, respectively. The specific energy absorption (SEA) of the lattice specimen fabricated by using the optimum process parameter values presented 9.4% improvement compared to the highest SEA obtained from the lattices in the Taguchi’s L9 array.
References
- 1. Nagesha, B.K., Dhinakaran, V., Varsha Shree, M., Manoj Kumar K.P., Chalawadi, D. and Sathish, T., “Review on characterization and impacts of the lattice structure in additive manufacturing”, Materials Today: Proceedings, Vol. 21, Part 1, Pages 916-919, 2020.
- 2. Seharing, A., Azman, A.H., and Abdullah, S., “A review on integration of lightweight gradient lattice structures in additive manufacturing parts”, Advances in Mechanical Engineering, Vol. 12, Issue 6, Pages 1-21, 2020. 3. Dong, L., “Mechanical responses of Ti-6Al-4V cuboctahedral truss lattice structures”, Composite Structures, Vol. 235, Pages 1-12, 2020.
- 4. Tang, C., Liu, J., Yang, Y., Liu, Y., Jiang, S. and Hao, W., “Effect of process parameters on mechanical properties of 3D printed PLA lattice structures”, Composites Part C, Vol. 3, Pages 1-15, 2020.
- 5. Dixit, N. and Jain, P.K., “Effect of Fused Filament Fabrication Process Parameters on Compressive Strength of Thermoplastic Polyurethane and Polylactic Acid Lattice Structures”, Journal of Materials Engineering and Performance, Vol. 31, Issue 7, Pages 5973-5982, 2022.
- 6. Alafaghani, A.a. and Qattawi, A., “Investigating the effect of fused deposition modeling processing parameters using Taguchi design of experiment method”, Journal of Manufacturing Processes, Vol. 36, Pages 164-174, 2018.
- 7. Dong, G., Wijaya, G., Tang, Y and Fiona Zhao, Y., “Optimizing process parameters of fused deposition modeling by Taguchi method for the fabrication of lattice structures”, Additive Manufacturing, Vol. 19, Pages 62-72, 2018.
- 8. Sathishkumar, T. P., Satheeshkumar, S., Bhuvaneshkumar, K., Sanjay, M. R. and Siengchin, S., “Crashworthiness characterization of jute fiber woven mat reinforced epoxy composite tube for structural application using Taguchi’s method”, International Journal of Crashworthiness, Vol. 27, Issue 5, Pages 1351-1367, 2022.
- 9. Gaitonde, V., Karnik, S. and Davim, J.P., “Multiperformance Optimization in Turning of Free-Machining Steel Using Taguchi Method and Utility Concept”, Journal of Material Engineering and Performance, Vol. 18, Pages 231–236, 2009.
- 10. Zhu, H., Wang, P., Wei, D, Si, J and Wu, Y., “Energy absorption of diamond lattice cylindrical shells under axial compression loading”, Thin-Walled Structures, Vol. 181, 2022, 110131, 2022.
- 11. Zhao, M., Li, X., Zhang, D.Z. and Zhai, W., “Design, mechanical properties and optimization of lattice structures with hollow prismatic struts”, International Journal of Mechanical Sciences, Vol. 238, Pages 1-19, 2023.
- 12. Xu, Z., Medori, E., Sarasini, F. and Razavi, N., “Quasi-static behavior of 3D printed lattice structures of various scales”, Procedia Structural Integrity, Vol. 33, Pages 578-585, 2021.
- 13. Sun, G., Fang, J., Tian, X., Li, G. and Li, Q, “Discrete robust optimization algorithm based on Taguchi method for structural crashworthiness design”, Expert Systems with Applications, Vol. 42, Issue 9, Pages 4482-4492, 2015.
- 14. Nalbant, M., Gökkaya, H., and Sur, G., “Application of Taguchi method in the optimization of cutting parameters for surface roughness in turning”. Materials & Design, Vol. 28, Issue 4, Pages 1379-1385, 2007.
- 15. Surace, R., De Filippis, L.A.C., Ludovico, A.D. and Boghetich, G., “Application of Taguchi method for the multi-objective optimization of aluminium foam manufacturing parameters”, International Journal of Material Forming, Vol. 3, Issue 1, Pages 1-5, 2010.
There are 14 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Mechanical Engineering (Other) |
| Journal Section | Research Article |
| Authors | |
| Early Pub Date | December 25, 2023 |
| Publication Date | December 31, 2023 |
| Submission Date | July 4, 2023 |
| Published in Issue | Year 2023 Volume: 7 Issue: 3 |
Cite
International Journal of 3D Printing Technologies and Digital Industry is lisenced under Creative Commons Atıf-GayriTicari 4.0 Uluslararası Lisansı