1 Lee, "The Static Overload Effect Estimations on Fatigue Strength by the Measurement of Local Strain Variation at the Weldment Toe" 18 (18): 59-66, 2001.
2 Kang, "Study on Stress Concentration Factor at Fillet Welded Joint" 33 : -3, 1996.
3 "Standard Test Methods for Tension Testing of Metallic Materials" -01, 2001.
4 "Standard Practice for Conducting Force Controlled Constant Amplitude Axial Fatigue Tests of Metallic Materials" -96, 2002.
5 Stephens, "Metal fatigue in engineering" John wiley & sons, inc 196-199, 2001
6 Terasaki,T.,, "Effect of welding residual stress on fatigue strength of welded joint" 36 (36): 1246-1252, 1987.
7 Park, "An Evaluation Method of Fatigue Strength and Reliability in a Railway Wheel with an Application of Strength-Stress Interference Model" 5 (5): 118-124, 2002.
8 Youn,J. G, "A Study on the Fatigue Characteristics of Accelerated Cooled TMCP Steel's Welded Joint with High Heat Input" 6 (6): 28-34, 1988.
1 Lee, "The Static Overload Effect Estimations on Fatigue Strength by the Measurement of Local Strain Variation at the Weldment Toe" 18 (18): 59-66, 2001.
2 Kang, "Study on Stress Concentration Factor at Fillet Welded Joint" 33 : -3, 1996.
3 "Standard Test Methods for Tension Testing of Metallic Materials" -01, 2001.
4 "Standard Practice for Conducting Force Controlled Constant Amplitude Axial Fatigue Tests of Metallic Materials" -96, 2002.
5 Stephens, "Metal fatigue in engineering" John wiley & sons, inc 196-199, 2001
6 Terasaki,T.,, "Effect of welding residual stress on fatigue strength of welded joint" 36 (36): 1246-1252, 1987.
7 Park, "An Evaluation Method of Fatigue Strength and Reliability in a Railway Wheel with an Application of Strength-Stress Interference Model" 5 (5): 118-124, 2002.
8 Youn,J. G, "A Study on the Fatigue Characteristics of Accelerated Cooled TMCP Steel's Welded Joint with High Heat Input" 6 (6): 28-34, 1988.