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The conventional medium and large caliber gun, in general, utilize the hydro-pneumatic recoil mechanism to control the firing impulse and to return to the battery position. However, this kind of mechanism may cause the problems like the leakages and t...
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RISS 인기검색어
https://www.riss.kr/link?id=A60050522
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2012
-
작성언어
Korean
- 주제어
-
KDC
555
-
등재정보
SCOPUS,KCI등재
-
자료형태
학술저널
- 발행기관 URL
-
수록면
324-333(10쪽)
-
KCI 피인용횟수
1
- DOI식별코드
- 제공처
- 소장기관
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
The conventional medium and large caliber gun, in general, utilize the hydro-pneumatic recoil mechanism to control the firing impulse and to return to the battery position. However, this kind of mechanism may cause the problems like the leakages and the property changes in oil and gas due to the temperature variations between low and high temperatures. Accordingly, the friction spring mechanism has recently been researched as an alternative system. The friction spring mechanism consists of a set of closed inner and outer rings with the concentric tapered contact surfaces assembled in the columnar form, and can only be used under the compression load. When the spring column is axially loaded, the tapered surfaces become overlapped, causing the outer rings to expand while the inner rings are being contracted in diameter allowing an axial displacement. Because of friction between tapered contact surfaces, much higher spring stiffness is obtained on the stroke at the increase in load than the stroke at the decrease. In this paper, the dynamic equations regarding the friction spring system and the design approach have been investigated. It is also tried for a dynamic model representing the recoil motion and the friction spring forces. And the model has been proved from firing test using a gun system with friction springs. All the results show that the recoil mechanism using friction springs can substitute for the classic hydro-pneumatic recoil system.
The conventional medium and large caliber gun, in general, utilize the hydro-pneumatic recoil mechanism to control the firing impulse and to return to the battery position. However, this kind of mechanism may cause the problems like the leakages and the property changes in oil and gas due to the temperature variations between low and high temperatures. Accordingly, the friction spring mechanism has recently been researched as an alternative system. The friction spring mechanism consists of a set of closed inner and outer rings with the concentric tapered contact surfaces assembled in the columnar form, and can only be used under the compression load. When the spring column is axially loaded, the tapered surfaces become overlapped, causing the outer rings to expand while the inner rings are being contracted in diameter allowing an axial displacement. Because of friction between tapered contact surfaces, much higher spring stiffness is obtained on the stroke at the increase in load than the stroke at the decrease. In this paper, the dynamic equations regarding the friction spring system and the design approach have been investigated. It is also tried for a dynamic model representing the recoil motion and the friction spring forces. And the model has been proved from firing test using a gun system with friction springs. All the results show that the recoil mechanism using friction springs can substitute for the classic hydro-pneumatic recoil system.
참고문헌 (Reference)
1 박문선, "완충시스템을 장착한 고충격 발생기구의 동특성 해석 및 실험" 한국정밀공학회 25 (25): 107-114, 2008
2 김영선, "마찰 스프링을 이용한 주퇴복좌기 설계 연구" 대한기계학회 35 (35): 367-374, 2011
3 Cha, K., "Vibration Analysis of Friction Spring under Stiffness Variation" 1199-1200, 2010
4 Skup, Z., "Theoretical and Experimental Studies of Energy Dissipation in a Model of a Ring Spring" 45 (45): 363-377, 2007
5 Wahl, A. M., "Mechanical Springs, 2nd Ed." McGraw-Hill 204-210, 1963
6 RINGFEDER Corporation, "Friction Springs"
7 Hill, K. E., "Dynamic Energy Absorption Utilising Ring Springs" 207-212, 1994
1 박문선, "완충시스템을 장착한 고충격 발생기구의 동특성 해석 및 실험" 한국정밀공학회 25 (25): 107-114, 2008
2 김영선, "마찰 스프링을 이용한 주퇴복좌기 설계 연구" 대한기계학회 35 (35): 367-374, 2011
3 Cha, K., "Vibration Analysis of Friction Spring under Stiffness Variation" 1199-1200, 2010
4 Skup, Z., "Theoretical and Experimental Studies of Energy Dissipation in a Model of a Ring Spring" 45 (45): 363-377, 2007
5 Wahl, A. M., "Mechanical Springs, 2nd Ed." McGraw-Hill 204-210, 1963
6 RINGFEDER Corporation, "Friction Springs"
7 Hill, K. E., "Dynamic Energy Absorption Utilising Ring Springs" 207-212, 1994
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분석정보
인용정보 인용지수 설명보기
학술지 이력
| 연월일 | 이력구분 | 이력상세 | 등재구분 |
|---|---|---|---|
| 2023 | 평가예정 | 해외DB학술지평가 신청대상 (해외등재 학술지 평가) | |
| 2020-01-01 | 평가 | 등재학술지 유지 (해외등재 학술지 평가) |  |
| 2013-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2010-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2008-06-23 | 학회명변경 | 영문명 : Korean Society Of Precision Engineering -> Korean Society for Precision Engineering | |
| 2008-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2006-07-07 | 학술지명변경 | 외국어명 : 미등록 -> Journal of the Korean Society for Precision Engineering | |
| 2006-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2004-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2001-01-01 | 평가 | 등재학술지 선정 (등재후보2차) | |
| 1998-07-01 | 평가 | 등재후보학술지 선정 (신규평가) |  |
학술지 인용정보
| 기준연도 | WOS-KCI 통합IF(2년) | KCIF(2년) | KCIF(3년) |
|---|---|---|---|
| 2016 | 0.26 | 0.26 | 0.26 |
| KCIF(4년) | KCIF(5년) | 중심성지수(3년) | 즉시성지수 |
| 0.24 | 0.22 | 0.449 | 0.12 |
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