1 윤종환, "전달행렬법을 이용한 유성기어형 반공진 진동 절연기 특성 연구" 한국소음진동공학회 29 (29): 98-106, 2019
2 윤종환, "전달행렬법을 이용한 레버형 반공진 진동 절연기 특성 연구" 한국소음진동공학회 28 (28): 574-581, 2018
3 곽동기, "외팔보 구조물의 진동감쇠를 위한 동흡진기의 실험적 연구" 한국소음진동공학회 21 (21): 991-996, 2011
4 마이 반 응옥, "반공진을 이용한 대역 차단형 비틀림 진동 절연기의 토크 전달률 해석 및 측정" 한국소음진동공학회 28 (28): 582-588, 2018
5 윤종환, "레버형 반공진 진동 절연기의 진동 특성 연구" 한국소음진동공학회 26 (26): 187-194, 2016
6 H. Rahnejat, "Tribology and Dynamics of Engine and Powertrain:Fundamentals, Applications and Future Trends" Woodhead Publishing 2010
7 M. Mohammadpour, "Transmission efficiency and noise, vibration and harshness refinement of differential hypoid gear pairs" 228 : 19-33, 2013
8 M. De la Cruz, "Transmission drive rattle with thermo-elastohydrodynamic impacts:Numerical and experimental investigations" 1 : 137-161, 2011
9 D. Chen, "Research of design and vibration reduction of dual mass flywheel with arc helix spring" 2706-2709, 2011
10 A. Wedin, "Reduction of vibrations in engines using centrifugal pendulum vibration absorbers" Chalmers University of Technology 2011
1 윤종환, "전달행렬법을 이용한 유성기어형 반공진 진동 절연기 특성 연구" 한국소음진동공학회 29 (29): 98-106, 2019
2 윤종환, "전달행렬법을 이용한 레버형 반공진 진동 절연기 특성 연구" 한국소음진동공학회 28 (28): 574-581, 2018
3 곽동기, "외팔보 구조물의 진동감쇠를 위한 동흡진기의 실험적 연구" 한국소음진동공학회 21 (21): 991-996, 2011
4 마이 반 응옥, "반공진을 이용한 대역 차단형 비틀림 진동 절연기의 토크 전달률 해석 및 측정" 한국소음진동공학회 28 (28): 582-588, 2018
5 윤종환, "레버형 반공진 진동 절연기의 진동 특성 연구" 한국소음진동공학회 26 (26): 187-194, 2016
6 H. Rahnejat, "Tribology and Dynamics of Engine and Powertrain:Fundamentals, Applications and Future Trends" Woodhead Publishing 2010
7 M. Mohammadpour, "Transmission efficiency and noise, vibration and harshness refinement of differential hypoid gear pairs" 228 : 19-33, 2013
8 M. De la Cruz, "Transmission drive rattle with thermo-elastohydrodynamic impacts:Numerical and experimental investigations" 1 : 137-161, 2011
9 D. Chen, "Research of design and vibration reduction of dual mass flywheel with arc helix spring" 2706-2709, 2011
10 A. Wedin, "Reduction of vibrations in engines using centrifugal pendulum vibration absorbers" Chalmers University of Technology 2011
11 P. Bertin, "Radial dual mass flywheel" SAE 1995
12 A. S. Alsuwaiyan, "Performance and dynamic stability of general-path centrifugal pendulum vibration absorbers" 252 : 791-815, 2002
13 A. M. Sharaf, "Optimisation of AWD off-road vehicle performance using visco-lock devices" 15 : 188-207, 2008
14 W. Sun, "Nonlinear characteristics study and parameter optimization of DMF-RS" 4 : 1050-1057, 2011
15 D. E. Newland, "Nonlinear aspects of the performance of centrifugal pendulum vibration absorbers" 86 : 257-263, 1964
16 C. P. Chao, "Non-unison dynamics of multiple centrifugal pendulum vibration absorbers" 204 : 769-779, 1997
17 H. Rahnejat, "Multi-body Dynamics: Vehicles, Machines and Mechanisms" Professional Engineering Publishing 1998
18 M. Daliri, "Magnetohydrodynamics of couple stress lubricants in combined squeeze and shear in parallel annular disc viscous coupling systems" 229 : 578-596, 2015
19 K. Li, "Lever mechanism for vibration isolation" 1 (1): 21-28, 2010
20 T. Wellmann, "Influence of automatic engine stop/start systems on vehicle NVH and launch performance" 8 (8): 1938-1946, 2015
21 S. Theodossiades, "Effect of a dual-mass flywheel on the impact-induced noise in vehicular powertrain systems" 220 : 747-761, 2006
22 W. G. Flannelly, "Dynamic Anti-resonant Vibration Isolator, U.S. Patent No 3,322,379"
23 L. Q. Song, "Design and analysis of a dual mass flywheel with continuously variable stiffness based on compensation principle" 79 : 124-140, 2014
24 N. Cavina, "Analysis of a dual mass flywheel system for engine control applications" SAE 2004
25 C. Yilmazr, "Analysis and design of passive band-stop filter-type vibration isolators for low-frequency applications" 291 (291): 1004-1028, 2006
26 이대은, "A Comparison of Vibration Isolation Characteristics of Various Forms of Passive Vibration Isolator" 한국소음진동공학회 22 (22): 817-824, 2012