1 조상운, "브레이크 패드의 동적 불안정성에 따른 스퀼 소음 발생 원인의 실험적 연구" 한국자동차공학회 24 (24): 520-526, 2016
2 강재영, "마찰 곡선에 의한 브레이크 소음 영향도 분석" 한국소음진동공학회 22 (22): 163-169, 2012
3 남재현, "마찰 곡선에 의한 불안정 브레이크 패드 모드 해석" 한국소음진동공학회 22 (22): 1206-1212, 2012
4 백종수, "금속 재질별 건성 마찰소음 실험적 특성 연구" 대한기계학회 39 (39): 681-686, 2015
5 Myshkin, N. K., "Tribology of Polymers: Adhesion, Friction, Wear, and Mass-transfer" 38 (38): 910-921, 2005
6 Kim, H. S., "Tribological Properties of Nanoporous Anodic Aluminum Oxide Film" 205 (205): 1431-1437, 2010
7 Lee, G. S., "Tribological Effects of Pores on an Anodized Al Alloy Surface as Lubricant Reservoir" 11 (11): S182-S186, 2011
8 Wang, X. C., "Squeal Noise of Friction Material with Groove-textured Surface : An Experimental and Numerical Analysis" 138 (138): 021401-, 2016
9 Kang, J. Y., "Parametric Study on Friction-induced Coupled Oscillator" 222 (222): 1381-1387, 2008
10 Gustafsson, E., "Investigation of Friction between Plastic Parts" Chalmers University of Technology 2013
1 조상운, "브레이크 패드의 동적 불안정성에 따른 스퀼 소음 발생 원인의 실험적 연구" 한국자동차공학회 24 (24): 520-526, 2016
2 강재영, "마찰 곡선에 의한 브레이크 소음 영향도 분석" 한국소음진동공학회 22 (22): 163-169, 2012
3 남재현, "마찰 곡선에 의한 불안정 브레이크 패드 모드 해석" 한국소음진동공학회 22 (22): 1206-1212, 2012
4 백종수, "금속 재질별 건성 마찰소음 실험적 특성 연구" 대한기계학회 39 (39): 681-686, 2015
5 Myshkin, N. K., "Tribology of Polymers: Adhesion, Friction, Wear, and Mass-transfer" 38 (38): 910-921, 2005
6 Kim, H. S., "Tribological Properties of Nanoporous Anodic Aluminum Oxide Film" 205 (205): 1431-1437, 2010
7 Lee, G. S., "Tribological Effects of Pores on an Anodized Al Alloy Surface as Lubricant Reservoir" 11 (11): S182-S186, 2011
8 Wang, X. C., "Squeal Noise of Friction Material with Groove-textured Surface : An Experimental and Numerical Analysis" 138 (138): 021401-, 2016
9 Kang, J. Y., "Parametric Study on Friction-induced Coupled Oscillator" 222 (222): 1381-1387, 2008
10 Gustafsson, E., "Investigation of Friction between Plastic Parts" Chalmers University of Technology 2013
11 Nam, J. H., "Investigation of Friction Induced Vibration in Lead Screw System Using FE Model and Its Experimental Validation" 122 : 98-106, 2017
12 Eiss Jr, N. S., "Frictional Instabilities in Polymer-polymer Sliding" 36 (36): 686-692, 1993
13 Rorrer, R. A., "Friction-induced Vibration of Oscillating Multi-degree of Freedom Polymeric Sliding Systems" 33 (33): 21-28, 2000
14 남재현, "Experimental investigation of friction noise on lubricated contact" 대한기계학회 31 (31): 5751-5760, 2017
15 Wang, D. W., "Experimental and Numerical Studies of Friction-induced Vibration and Noise and the Effects of Groove-textured Surfaces" 46 (46): 191-208, 2014
16 Kchaou, M., "Experimental Studies of Friction-induced Brake Squeal : Influence of Environmental Sand Particles in the Interface Brake Pad-disc" 110 : 307-317, 2017
17 Xu, J. Y., "Effects of a Horizontal Magnetic Field on Unstable Vibration and Noise of a Friction Interface with Different Magnetic Properties" 120 : 47-57, 2018
18 남재현, "Effect of Groove Surface on Friction Noise and Its Mechanism" 한국정밀공학회 18 (18): 1165-1172, 2017
19 Kang, J. Y., "Comprehensive Stability Analysis of Disc Brake Vibrations Including Gyroscopic, Negative Friction Slope and Mode-coupling Mechanisms" 324 (324): 387-407, 2009
20 Jibiki, T., "A Basic Study of Friction Noise Caused by Fretting" 251 (251): 1492-1503, 2001