References
- 신윤길 외, 함정 탑재장비의 내충격성 평가, 옥포 조선기술, 제2호, 통권 제52호, 2001
- George J, O'Hara and etc., Interim Design Values for Shock Design of Shipboard Equipment, NRL Memorandum Report 1396, Feb. 1963
- BV043, Shock Resistance-Experimental and Mathematical Proof, Building Specification for Ships of the Federal Armed Forces, March 1985
- MIL-STD-810F, Department of Defense Test Method Standard for Environmental Engineering Considerations and Laboratory Tests, Jan. 2000
- MIL-STD-202G, Department of Defense, Test Method Standard- Electronic and Electrical Component Parts, Feb. 2002
- Blazek S.M., Philosophy in the Shock and Design Requirements of Shipboard Equipment, Shock and Vibration Bulletin, No.23, pp25-30, 1956
- 해군 조함단, 함정의 소음/충격/진동 설계 및 관리 지침서, 2003
- NAVSEA 0908-LP-000-3010 Rev.1, Shock Design Criteria for Surface Ships, Sept. 1995
- Hartsough, K., The Navy Shock Qualification Process, Lecture Note of Tutorial Course in 73rd Shock & Vibration Symposium, 2002
- Clements, E.W., Shipboard Shock and Navy Devices for Its Simulation, NRL Report 7396, July 1972
- MIL-S-901D, Military Specification, Shock Tests, H.I(High Impact) Shipboard Machinery Equipment and Systems, Requirements for, 17 March 1989
- KS C 0241, 환경시험 방법(전기.전자) 충격시험 방법
- KS C 0905, 소형 전기기기의 충격시험 방법
- KS V 0818, 선박용 전기 기구 환경시험 통칙
- KS B ISO 1940-1, 기계적 진동-강성회전체의 평형특성 요구 조건-제1부 : 허용잔류불평형량의 결정
- ISO 2631-1(1997), Mechanical vibration and shock- Guideline for the overall evaluation in merchant ships
- ISO 2923(1975) Acoustics-Measurement of noise on board vessels
- ISO 3046-5(2001), Reciprocating internal combustion engines- Performance - Part 5: Torsional vibrations second edition