한국생산제조학회 학술지 영문 홈페이지

Current Issue

Journal of the Korean Society of Manufacturing Technology Engineers - Vol. 33 , No. 2

[ Article ]
Journal of the Korean Society of Manufacturing Technology Engineers - Vol. 32, No. 4, pp. 227-234
Abbreviation: J. Korean Soc. Manuf. Technol. Eng.
ISSN: 2508-5107 (Online)
Print publication date 15 Aug 2023
Received 14 Jun 2023 Revised 11 Aug 2023 Accepted 14 Aug 2023
DOI: https://doi.org/10.7735/ksmte.2023.32.4.227

유한요소해석을 이용한 함정용 진동저감 간이 모사시험장치의 정합성 검증
정안목a ; 김도영b ; 손성완b ; 박영철c ; 이학준a, *

Validation of a Simple Simulation Test Equipment for Ship Vibration Reduction using Finite Element Analysis
Anmok Jeonga ; Doyoung Kimb ; Sungwan Sonb ; Young-Cheol Parkc ; Hak-Jun Leea, *
aDepartment of Smart Manufacturing R&D System, Korea Institute of Industrial Technology
bR&D Center, RMS Technology
cDivision of Software, Yonsei University
Correspondence to : *Tel.: +82-42-589-855 E-mail address: hak1414@kitech.re.kr (Hak-Jun Lee).

Funding Information ▼

Abstract

Technological developments to reduce underwater noise caused by equipment vibration on ships are essential to improve the operational capability and ensure the survivability of ships. Accordingly, several studies have been carried out to reduce the vibrations generated by mounted equipment. In this study, a finite element model was developed to predict the dynamic characteristics and control effects of a simple simulation test equipment designed to simulate the operating states of a ship. The predicted results were compared with the experimental results obtained from the fabricated test equipment to verify the accuracy of the model. The double elastic support model of the test equipment was designed using shell elements. The vertical and horizontal stiffnesses of the mount were defined using the Bushing Joint component. The dynamic characteristics and vibration reduction effects predicted by the active assembly of the finite element model showed good agreement with those observed from experiments.


Keywords: Structure-borne noise, Vibration reduction, Pasive mount, Finite element analysis, Active assembly

Acknowledgments

이 연구는 2022년 정부(방위사업청)의 재원으로 국방과학연구소의 지원을 받아 진행된 연구임(UC210001DD).


References
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Anmok Jeong

Researcher in the Department of Smart Manufacturing R&D System, Korea Institute of Industrial Technology. His research interest is Mechanical Design of Semiconductor Equipment.

E-mail: amjeong@kitech.re.kr

Doyoung Kim

Senior Researcher of Research Institude, RMS Technology Ltd. His research interest is Dynamic Analysis using F.E.M..

E-mail: dykim@rmstech.co.kr

Sungwan Son

Director of Research Institude, RMS Technology Ltd. His research interest is Vibration Control.

E-mail: swson@rmstech.co.kr

Young-Cheol Park

Professor, Software Division, Yonsei University, Mirae Campus. His research interests include Active Noise/Vibration Control, Deep Learning-based Signal Processing.

E-mail: young00@yonsei.ac.kr

Hak-Jun Lee

Senior Researcher in the Department of Smart Manufacturing R&D System, Korea Institute of Industrial Technology. His research interest is Precision Motion Mechanism and Semiconductor/Display Equipment.

E-mail: hak1414@kitech.re.kr