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Effect of Crystallographic Orientation on Fracture Mechanism of Ni-Base Superalloy KCI 등재 SCOPUS

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한국재료학회지 (Korean Journal of Materials Research)
한국재료학회 (Materials Research Society Of Korea)
초록

The fatigue strength of a nickel-base superalloy was studied. Stress-controlled fatigue tests were carried out at 700 oC and 5 Hz using triangular wave forms. In this study, two kinds of testing procedures were adopted. One is the conventional tension-zero fatigue test(R = 0). The other was a procedure in which the maximum stress was held at 1000 MPa and the minimum stress was diverse from zero to 1000 MPa at 24 and 700 oC. The results of the fatigue tests at 700 oC indicate that the fracture mechanism changed according to both the mean stress and the stress range. At a higher stress range, γ ' precipitates are sheared by a/2<110> dislocation pairs coupled by APB. Therefore, in a large stress range, the deformation occurred by shearing of γ ' by a/2<110> dislocations, which brought about crystallographic shear fracture. As the stress range was decreased, the fracture mode gradually changed from crystallographic shear fracture to gradual growth of fatigue cracks. At an intermediate stress range, as it became more difficult for a/2<110> dislocation pairs to shear γ ' particles, cracks started to propagate in the matrix, avoiding the harder γ ' particles. High mean stress induced creep deformation, that is, γ ' particles were sheared by {111}<112> slip systems, which led to the formation of stacking faults in the precipitates. Thus, the change in fracture mechanism brought about the inversion of the S-N curves.

목차
1. Introduction
2. Experimental Procedure
3. Results
4. Discussion
5. Conclusion
Acknowledgements
References
저자
  • Chang-Suk Han(Department of Defense Science & Technology, Hoseo University) Corresponding Author
  • Sang-Yeon Lim(Department of Nanobiotronics, Hoseo University Hoseo-ro 79 beon-gil, Baebang-Myun, Asan City, Chungnam 336-795, Korea)