1 O. H. Basquin, "The experimental law of endurance tests" 10 : 625-630, 1910
2 G. Taguchi, "Taguchi on robust technology development: Bringing quality engineering upstream" ASME press 1993
3 E. Bormetti, "Surface and subsurface cracks in rolling contact fatigue of hardened components" 45 : 274-283, 2002
4 E. Bormetti, "Surface and subsurface cracks in rolling contact fatigue of hardened components" 45 : 274-283, 2002
5 최영식, "Rolling contact fatigue life of finish hard machined surfaces Part 2. Experimental verification" ELSEVIER SCIENCE SA 261 (261): 492-499, 200609
6 최영식, "Rolling contact fatigue life of finish hard machined surfaces Part 1. Model development" ELSEVIER SCIENCE SA 261 (261): 485-491, 200609
7 International standards organization, "Rolling bearingsdynamic load ratings and rating life: Part 1. Calculation methods"
8 T. A. Harris, "Rolling bearing analysis" Wiley-Interscience 2001
9 D. Nelias, "Role of inclusions, surface roughness and operating conditions on rolling contact fatigue" 121 : 240-251, 1999
10 A. D. Hearle, "Mode II stress intensity factors for a crack parallel to the surface of an elastic halfspace subjected to a moving point load" 33 : 61-81, 1985
1 O. H. Basquin, "The experimental law of endurance tests" 10 : 625-630, 1910
2 G. Taguchi, "Taguchi on robust technology development: Bringing quality engineering upstream" ASME press 1993
3 E. Bormetti, "Surface and subsurface cracks in rolling contact fatigue of hardened components" 45 : 274-283, 2002
4 E. Bormetti, "Surface and subsurface cracks in rolling contact fatigue of hardened components" 45 : 274-283, 2002
5 최영식, "Rolling contact fatigue life of finish hard machined surfaces Part 2. Experimental verification" ELSEVIER SCIENCE SA 261 (261): 492-499, 200609
6 최영식, "Rolling contact fatigue life of finish hard machined surfaces Part 1. Model development" ELSEVIER SCIENCE SA 261 (261): 485-491, 200609
7 International standards organization, "Rolling bearingsdynamic load ratings and rating life: Part 1. Calculation methods"
8 T. A. Harris, "Rolling bearing analysis" Wiley-Interscience 2001
9 D. Nelias, "Role of inclusions, surface roughness and operating conditions on rolling contact fatigue" 121 : 240-251, 1999
10 A. D. Hearle, "Mode II stress intensity factors for a crack parallel to the surface of an elastic halfspace subjected to a moving point load" 33 : 61-81, 1985
11 R. S. Zhou, "Micropitting in rolling and sliding contact under mixed lubrication" 111 : 605-613, 1989
12 R. I. Stephens, "Metal fatigue in engineering" Wiley-Interscience 2001
13 G. Bellows, "Low stress grinding for quality production" Machinability Data Center 1978
14 X. Leng, "Initiation and propagation of case crushing cracks in rolling contact fatigue" 122 : 33-43, 1988
15 C. Kaynak, "Initiation and early growth of short fatigue cracks at inclusions" 12 : 421-426, 1996
16 Q. Chen, "Influence of microstructure and residual stress on the stages of case crushing" 122 : 45-55, 1988
17 B. L. Averbach, "Fracture of bearing steels" Metal Progress 1980
18 S. R. Agha, "Fatigue performance of superfinish hard turned surfaces in rolling contact" Purdue University 2000
19 S. R. Agha, "Experimental study on the performance of superfinish hard turned surfaces in rolling contact" 244 : 52-59, 2000
20 Q. Y. Wang, "Effect of inclusion on subsurface crack initiation and gigacycle fatigue strength" 24 : 1269-1274, 2002
21 G. Lundberg, "Dynamic capacity of rolling bearings" 1 : 3-, 1947
22 G. Lundberg, "Dynamic capacity of rolling bearings" 2 : 4-, 1952
23 K. Tanaka, "Dislocation model for fatigue crack initiation" 48 : 97-103, 1981
24 B. Jiang, "Calculation for rolling contact fatigue life and strength of case-hardened gear materials by computer" 21 : 9-13, 1993
25 X. Yang, "An experimental study on fatigue life variance, residual stress variance, and their correlation of face-turned and ground TI 6AL-4V samples" 124 : 809-819, 2002
26 S. Cho, "A study on fatigue crack growth and life modeling using backpropagation neural networks" 24 : 634-644, 2000
27 Y. Choi, "A new methodology for predicting crack initiation life for rolling contact fatigue based on dislocation and crack propagation" 50 : 117-123, 2008
28 X. Yang, "A methodology for predicting the variance of fatigue life incorporating the effects of manufacturing processes" 124 : 745-753, 2002
29 X. Yang, "A methodology for predicting the variance life incorporating the effects of manufacturing processes" Purdue University 2001
30 A. Melander, "A finite element study of short cracks with different inclusion types under rolling contact fatigue load" 19 : 13-24, 1997
31 P. Paris, "A critical analysis of crack propagation laws" 528-534, 1963
32 Dong-Woo Lee, "A Study on Fatigue Damage Modeling using Neural Networks" 대한기계학회 19 (19): 1393-1404, 2005