Effects of low- to medium-angle grain boundaries on creep properties of superalloy
CJ Zhang and WB Hu and CY Liu and YS Zhao and J Shang and ZX Wen, MATERIALS SCIENCE AND TECHNOLOGY, 34, 1176-1187 (2018).
DOI: 10.1080/02670836.2018.1428405
The creep properties of Ni-based bicrystal specimens with low- to medium-angle grain boundaries are investigated at 1100 degrees C and 130MPa with two misorientation angles prepared by double-seed solidification. Experimental results show that the angle of the grain boundary with respect to the stretching direction has a strong effect on creep life. Molecular dynamics simulations show that the effect of the grain boundary on the neighbouring dislocation density is related to the grain boundary angle. A creep constitutive model with the grain boundary angle and the initial damage rate can be adopted to describe the creep damage evolution. The model is then modified according to the molecular dynamics simulation and experimental results to give more accurate predictions of creep life.
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