1 강정윤, "파괴기구와 미시적 파면(Ⅳ):입계파괴와 고온영역에서 파괴" 대한용접접합학회 22 (22): 6-8, 2004
2 Luo, J., "Small and Long Fatigue Crack Growth Behaviour of a PM Ni-Based" 26 (26): 113-124, 2004
3 Zhang, L. N., "Microstructures’ Effects on High Temperature Fatigue Failure Behavior of Typical Superalloys" 587 : 168-178, 2013
4 Gustafsson, D., "Fatigue Crack Growth Behaviour of Inconel 718 with High Temperature Hold Times" 2 (2): 1095-1104, 2010
5 Oh, Y. J., "Dynamic Loading Fracture Tests of Ferritic Steel Using Direct Current Potential Drop Method" 30 (30): 221-227, 2002
6 Yang, H., "Crack Growth Behaviour of a Nickel-Based Powder Metallurgy Superalloy Under Elevated Temperature" 33 (33): 632-641, 2011
7 "ASTM E647-15, Standard Test Method for Measurement of Fatigue Crack Growth Rates"
1 강정윤, "파괴기구와 미시적 파면(Ⅳ):입계파괴와 고온영역에서 파괴" 대한용접접합학회 22 (22): 6-8, 2004
2 Luo, J., "Small and Long Fatigue Crack Growth Behaviour of a PM Ni-Based" 26 (26): 113-124, 2004
3 Zhang, L. N., "Microstructures’ Effects on High Temperature Fatigue Failure Behavior of Typical Superalloys" 587 : 168-178, 2013
4 Gustafsson, D., "Fatigue Crack Growth Behaviour of Inconel 718 with High Temperature Hold Times" 2 (2): 1095-1104, 2010
5 Oh, Y. J., "Dynamic Loading Fracture Tests of Ferritic Steel Using Direct Current Potential Drop Method" 30 (30): 221-227, 2002
6 Yang, H., "Crack Growth Behaviour of a Nickel-Based Powder Metallurgy Superalloy Under Elevated Temperature" 33 (33): 632-641, 2011
7 "ASTM E647-15, Standard Test Method for Measurement of Fatigue Crack Growth Rates"