Insitu transmission electron microscopy investigation of crack propagation in single crystal Ni3Al

Shan, ZW; Wu, Xin; Liu, L.; Yang, Jiangrong; Xu, Yixin

doi:10.1179/026708301101509368

Cited by 5 publications

(3 citation statements)

References 6 publications

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“…Accompanying the deflection of the crack tip, the crack surfaces display a zigzag morphology. The zigzag manner of crack propagation has been observed in metallic thin films of Mo, Ni 3 Ge and Ni 3 Al by transmission electron microscopy [16][17][18], and has been unambiguously ascribed to the alternation of primary and secondary slip systems. This alternation of dislocation slip systems reduces the film thickness intermittently and in turn produces the zigzag crack path [16].…”

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confidence: 93%

Twinning-dominated nucleation, propagation and deflection of crack in molybdenum characterized within situtransmission electron microscopy

Liu

Wang

et al. 2014

Philosophical Magazine Letters

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Using in situ transmission electron microscopy, we have observed nucleation, propagation and deflection of cracks in a molybdenum thin film. According to characterization by high-resolution transmission electron microscopy, the crack surfaces have a zigzag morphology and are parallel to the {1 1 2} twinning planes that correspond to different twin variants. {1 1 2} de-twinning in association with cracking is also suggested. These observations demonstrate a twin-crack relation whereby (a) twins nucleate cracks and define a preferred cracking path and (b) a propagating crack facilitates twinning.

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confidence: 93%

Twinning-dominated nucleation, propagation and deflection of crack in molybdenum characterized within situtransmission electron microscopy

Liu

Wang

et al. 2014

Philosophical Magazine Letters

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“…The deformation behavior of c 0 -Ni 3 Al can partially reflect the mechanical properties of Ni-based superalloys. At present, some experimental researches [13,14] about crack propagation in c 0 -Ni 3 Al were reported. Re is a critical element for the remarkable improvement of mechanical properties of superalloys [15][16][17][18][19].…”

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confidence: 98%

Effect of Re on lattice trapping in γ′-Ni3Al cracks by atomistic simulation

Liu

Chongyu

et al. 2015

Computational Materials Science

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“…Superlattice stacking fault formation and twinning during creep in nickel-based superalloy were reported experimentally by Knowles and Chen, [14] and it was found that the formation of high temperature twinning could always be associated with the super extrinsic stacking fault (SESF). Crack propagation in single crystal Ni 3 Al at room temperature was also studied experimentally, [15,16] and the results showed that the room temperature failures were highly localized, often knife-edge sharp and nearly parallel to the primary slip plane. However, at low temperatures, the effects of superdislocation formation and twinning in Ni 3 Al on its fracture toughness have not been explained clearly.…”

Section: Introductionmentioning

confidence: 99%

Dislocation formation and twinning from the crack tip in Ni ₃ Al: molecular dynamics simulations

Xie

Wang

et al. 2009

Chinese Phys. B

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The mechanism of low-temperature deformation in a fracture process of L12 Ni3Al is studied by molecular dynamic simulations. Owing to the unstable stacking energy, the [01̄1] superdislocation is dissociated into partial dislocations separated by a stacking fault. The simulation results show that when the crack speed is larger than a critical speed, the Shockley partial dislocations will break forth from both the crack tip and the vicinity of the crack tip; subsequently the super intrinsic stacking faults are formed in adjacent {111} planes, meanwhile the super extrinsic stacking faults and twinning also occur. Our simulation results suggest that at low temperatures the ductile fracture in L12 Ni3Al is accompanied by twinning, which is produced by super-intrinsic stacking faults formed in adjacent {111} planes.

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Insitu transmission electron microscopy investigation of crack propagation in single crystal Ni3Al

Cited by 5 publications

References 6 publications

Twinning-dominated nucleation, propagation and deflection of crack in molybdenum characterized within situtransmission electron microscopy

Twinning-dominated nucleation, propagation and deflection of crack in molybdenum characterized within situtransmission electron microscopy

Effect of Re on lattice trapping in γ′-Ni3Al cracks by atomistic simulation

Dislocation formation and twinning from the crack tip in Ni ₃ Al: molecular dynamics simulations

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Insitu transmission electron microscopy investigation of crack propagation in single crystal Ni3Al

Cited by 5 publications

References 6 publications

Twinning-dominated nucleation, propagation and deflection of crack in molybdenum characterized within situtransmission electron microscopy

Twinning-dominated nucleation, propagation and deflection of crack in molybdenum characterized within situtransmission electron microscopy

Effect of Re on lattice trapping in γ′-Ni3Al cracks by atomistic simulation

Dislocation formation and twinning from the crack tip in Ni 3 Al: molecular dynamics simulations

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Dislocation formation and twinning from the crack tip in Ni ₃ Al: molecular dynamics simulations