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Research on Improving Output Quality through Design and Manufacturing of Food 3D Printer Parts

식품 3D 프린터 부품 설계 및 제조를 통한 출력 품질 향상 연구

  • 김정섭 (금오공과대학교 컨설팅학과) ;
  • 김태성 (금오공과대학교 산업공학과) ;
  • 이규석 (금오공과대학교 산업공학)
  • Received : 2024.08.30
  • Accepted : 2024.09.22
  • Published : 2024.09.30

Abstract

In this paper, we aim to improve the output quality of a food 3D printer through optimized component design and implementation. Existing 3D printers produce customized outputs according to consumer needs, but have problems with output speed and poor quality. In this paper, we aim to solve this problem through optimized design of unit parts such as the extruder, nozzle, guide, and external case. Fusion 360 was used for element design, and in the performance evaluation of the implemented system, the average precision was 0.06mm, which is higher than the non-repeatable precision of ±0.1mm of other products, and the feed speed of the existing system was evaluated to be more than twice as fast, from 70mm/s to 140mm/s. In the future, we plan to continuously research output elements that can produce texture and color and device control methods for convenience.

Keywords

References

  1. S. J. Cho, E. Y. Jeong, J. H. Park(2020), "Proposal of a Design Concept for 3D Food Printing Design Development: Focusing on Establishing the Development Direction of Chocolate 3D Printers." Journal of Basic Design Studies, 21(4).
  2. S. H. Park(2024), Optimization of the manufacturing and printing process of 3D printing ink based on the meat and the quality characteristics of steamed fish cake using it. Master's thesis, Gyeongsang National University Graduate School.
  3. H. J. Park, H. W. Kim(2017), "Global 3D Food Printing Technology and Industry Trends and Future Prospects." World Agri c, 202:147-168.
  4. T. Pereira, S. Barroso, M. M. Gil(2021), "Food texture design by 3D printing: A review." Foods, 10(2):320.
  5. A. Derossi, et al.(2021), "Could 3D food printing help to improve the food supply chain resilience against disruptions such as caused by pandemic crises?." International Journal of Food Science & Technology, 56(9):4338-4355.
  6. M. H. Ali, S. Batai, D. Sarbassov(2018), "3D printing: a critical review of current development and future prospects." Rapid Prototyping Journal, 25(6):1108-1126.
  7. RepRap, Fused filament fabrication, https://reprap.org/mediawiki/index.php?title=Fused_filament_fabrication&oldid=185043
  8. M. Mehrpouya, et al(2021), "Additive manufacturing of polyhydroxyalkanoates (PHAs) biopolymers: Materials, printing techniques, and applications." Materials Science and Engineering: C, 127:112216.
  9. S. Singhal, et al(2020), "3D food printing: paving way towards novel foods." Anais da Academia Brasileira de Ciencias, 92(3):20180737.
  10. B. G. Kim(2024), 3D bioprinting technology, "Food tech, Food 3D printing technology," Center for Biotechnology Policy Research.
  11. M. S. Park, et al.(2019), "Actual conditions of the food industry's application of food tech and its tasks-Focusing on alternative livestock products and 3D food printing." Report of Korea Rural Economic Institute, 879:1-217.
  12. Y. Kim, et al.(2022), "3D Printing Technology: Food Tech Analysis." Resources Science Research, 4(1):1-11.
  13. S. Y. Park(2024), Manufacturing and Characteristics of Elderly-Friendly Food Using 3D Food Printing Technology Using Seaweed Protein Concentrate. Domestic Doctoral Dissertation, Graduate School of Gyeongsang National University.
  14. J. H. Byun, S. O. Kim(2024), "Review of Food 3D Printer Technology for Food Manufacturing." Korean Journal of Food Science and Technology, 56(2):130-141.
  15. J. S. Han(2018), Design and Implementation of a Liquid Material 3D Printer Using Arduino. Master's thesis, Kangwon National University.
  16. J. H. Park, I. H. Lee(2019), "Fabrication of a Food 3D Printer Nozzle for Mixed Dispensing of Heterogeneous Materials." Proceedings of the Spring and Autumn Conference of the Korean Society of Machinery Processing, pp.128-128.
  17. W. B. Oh(2021), For improving the quality of 3D printer output. Domestic master's thesis, Incheon Catholic University Graduate School.
  18. C. H. Kim(2020), Development of protein gel 3D printer and improvement of stacking performance. Domestic master's thesis, Soonchunhyang University Graduate School.
  19. J. G. Moon(2023), Problems with Food 3D Printer Output Using AI Big Data and ChatGPT. Domestic Master's Thesis, Hoseo University Venture Graduate School.