한국생산제조학회 학술지 영문 홈페이지
[ Papers ]
Journal of the Korean Society of Manufacturing Technology Engineers - Vol. 28, No. 1, pp.48-55
ISSN: 2508-5107 (Online)
Print publication date 15 Feb 2019
Received 14 Dec 2018 Revised 20 Jan 2019 Accepted 23 Jan 2019
DOI: https://doi.org/10.7735/ksmte.2019.28.1.48

파괴방수차 방수노즐의 설계 개선에 관한 연구

김세동a ; 이정환b, * ; 이준호c
Design Improvement of a Water Nozzle in a Demolition Water Vehicle
Se-Dong Kima ; Jung-Hwan Leeb, * ; Jun Ho Leec
aVehicle System R&D Group, System R&D Division, Jeonbuk Institute of Automotive Convergence Technology, 6, Dongjangsan 2-gil, Gunsan, Jeonbuk-do, 54158, Korea
bSchool of Mechanical Convergence System Engineering, Kunsan Nation University, 558, Daehak-ro, Gunsan, Jeonbuk-do, 54150, Korea
cJinwoo SMC Co., Ltd., 353, Soegam-ro, Chunpo-myeon, Iksan, Jeonbuk-do, 54580, Korea

Correspondence to: *Tel.: +82-63-469-4740 Fax: +82-63-469-7433 E-mail address: jhleeme@kunsan.ac.kr (Jung-Hwan Lee).

Abstract

In this study, research was conducted on the design of a blade shape for a demolition water nozzle and the effects of heat treatment on the blade. SUS402J2 was selected for the blade of the demolition water nozzle. Results of a strength test machine on three samples of demolition water nozzles showed no signs of cracks in the welding area under a load of 20,000 N. For the strain energy density calculation, ANSYS elasto-plastic analysis was performed to identify the strength of the blade tip and destructive function of the water nozzle. Simulation results were analyzed using Minitab, and the p-value was considered. Through this study, the effects of heat treatment on the nozzle and the shape of the blade tip were identified, and an improved design was proposed.

Keywords:

SUS420J2, Demolition water vehicle, Strength test, FEA, Strain Energy Density (SED), DOE

Acknowledgments

본 연구는 산업통상자원부와 한국산업기술진흥원이 지원하는 건설기계 R&D 전문인력양성 사업(N0001292)의 지원을 받아 수행되었습니다.

References

  • Kim, J. S., So, S. H., Lim, S. H., 2014, A Study on Dynamic Characteristics and Durability of Multi-joint Boom for Demolition Water Vehicle, Journal of the Korea Academia-Industrial cooperation Society, 15:8 4769-4775.
  • Lim, S. H., 2015, A Study on Impact of an End Effector for Demolition Fire Vehicle, A Thesis for a Master, Jeonju University, Republic of Korea.
  • Kim, K. E., 2014, Stability Evaluation of Structure Using CAE Demolition Fire Apparatus, A Thesis for a Master, Jeonju University, Republic of Korea.
  • Kim, Y. G., Kim, Y. J., Kim, G. D., Sung, J. H., 1992, Effect of Austenitizing Temperatures on the Mechanical Properties in 420J2 Martensitic Strainless Steel, Journal of the Korea Society for Heat Treatment, 5:2 111-121.
  • Lee, K. G., Kim, T. H., Lee, H. Y., 2009, Acquirement of True Stress-strain Curve Using True Fracture Strain Obtained by Tensile Test and FE Analysis, Transactions of the Korean Society of Mechanical Engineers, 33:10 1054-1064.
  • Jo, S. W., Park, J. W., Kwak, S. Y., 2013, Finite Element Analysis Method for Impact Fracture Prediction of A356 Cast Aluminum Alloy, Journal of Korea Foundry Society, 33:2 063-068.
  • Jeong, H. S., Cho, J. R., 2012, Shape Optimization of S-tube for Heat Exchanger Used in High Temperature Environment Using FE Analysis and DOE, Journal of the Korean Society of Marine Engineering, 36:4 497-503.
  • TAE SUNG S & E, 2010, ANSYS Workbench, Sigmapress, Republic of Korea.
  • Lee, S. B., 2012, Minitab Example-oriented Design of Experiment, Eretec Inc., Republic of Korea.
  • Kang, S. S., Kim, J. S., Seol, G. H., 2013, Impact Analysis of Freely Falling Cellular Phone, Journal of the KSMTE, 22:6 963-968.
  • Kang, B. K., Yoon, J. H., Cheong, J. N., Jeong, H. H., 2018, Development of A Plate-type Cold Forging Manufacturing Process and Finite Element Analysis for Producing Thrust Washer of Automotive Engine, Journal of the KSMTE, 27:1 46-56.