한국생산제조학회지 (Journal of the Korean Society of Manufacturing Technology Engineers)

  • 제25권5호
  • /
  • Pages.393-399
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  • 2016
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  • 2508-5093(pISSN)
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  • 2508-5107(eISSN)
한국생산제조학회 (The Korean Society of Manufacturing Technology Engineers)
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역설계 방법에 의한 시편 치수 형상의 오차율 분석

Analysis of Master Dimensional Shape Error Rate According to Reverse Engineering Technique

  • Jung, Hyun-Suk (School of Mechatronic Engineering, Korea University of Technology and Education) ;
  • Park, Su-Jung (School of Mechatronic Engineering, Korea University of Technology and Education) ;
  • Yoo, Joong-Hak (Department of Mechatronic Engineering, Korea University of Technology and Education)
  • 투고 : 2016.07.18
  • 심사 : 2016.09.08
  • 발행 : 2016.10.15
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초록

In this study, an experiment was conducted using a 3D scanner, commonly used in reverse engineering techniques, and the newly introduced CT measuring machine. The hole, width, and angle of specimens having various shapes were designated, the error rates in dimensional modelling generated during scanning with each device were compared, and the models were printed using a 3D printer. A secondary comparative analysis of the two printed specimens was conducted; the causes of dimension errors that occur during the printing process after scanning with each device and the differences associated with variation in shape were also analyzed. Based on the analysis results, the featured shape for each scanning application method and issues to consider in reverse engineering were presented, and the use of the CT measuring machine was recommended as a method to minimize error rates in dimensions and ensure efficient reverse engineering.

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참고문헌

  1. Oh, H. K., 2013, A Study on the Utilization of Reverse Engineering for the Modeling Process of Product Design, Journal of Korea Design Knowledge Society Conference, 14-20.
  2. Lee, B. G., 2010, A Study on the Improvement of the Reverse Engineering Process with its Application to Systems Design , A Thesis for a Master, Ajou University Graduate School, Republic of Korea, 92-101.
  3. Park, S. J., Jung, H. S., Hong, C. M., Yoo, J. H., 2014, Accuracy Analysis of 3D Printer Manufacturing using Reverse Engineering Techniques , Proceedings of The Korean Society of Manufacturing Technology Engineers, 179.
  4. Choi, S. U., 2011, On the Improved Reverse Engineering Process to Generate System Requirements, A Thesis for a Master, Ajou University Graduate School, Republic of Korea, 67-102.
  5. Lee, Y. Y., 2003, Segmentation of Scanned Point Data Using a Face-based Method in Reverse Engineering, A Thesis for a Master, Korea University Graduate School, Republic of Korea, 41-71.
  6. Jang, G. Y., 2003, A Study on the Multi-step Digitizing Method and Reverse Model Generation for Improvement of Reverse Engineering Accuracy, A Thesis for a Master, Incheon University Graduate School, Republic of Korea, 45-52.
  7. Han, M. S., Lee, J. Y., Kim, S. Y., Kim, T. H., Jeon, E. C., 2004, The Performance Evaluation of Reverse Engineering System using Micro Stepper, Proceedings of The Korean Society of Manufacturing Technology Engineers, 340-344.
  8. Chung, H. M., Won, D. Y., Kwon, D. G., and Chung, J. E., 2013, Measurement of Space Dose Distribution during Exposure Micro Computed Tomography (${\mu}-CT$) for Scattering Rays, Journal of korean Society for Radiology, 7:1 45-50. https://doi.org/10.7742/jksr.2013.7.1.045

피인용 문헌

  1. 3차원스캐닝과 역설계를 이용한 트랙터 복합작업기 치수 검사 vol.16, pp.3, 2016, https://doi.org/10.14775/ksmpe.2017.16.3.045
  2. Dimensional Characteristics of 3D Printing by FDM and DLP Output Methods vol.20, pp.1, 2021, https://doi.org/10.14775/ksmpe.2021.20.01.066
  3. Dimensional Characteristics of Hydraulic Actuator Curve based on 3D Printing Filament Materials vol.20, pp.1, 2016, https://doi.org/10.14775/ksmpe.2021.20.01.074