Comparison of fatigue crack growth behaviour in electron-beam and laser powder-bed-fusion Inconel 718
Comparison of fatigue crack growth behaviour in electron-beam and laser powder-bed-fusion Inconel 718
A comparative study on fatigue crack growth behaviour was made between the electron-beam powder-bed-fusion (PBF-EB) and laser powder-bed-fusion (PBF-LB) Inconel 718. The crack followed a transgranular path with a faster propagation rate for the PBF-EB Inconel 718, whereas a combination of intergranular and transgranular path was observed for the PBF-LB, and its slower rate being comparable to the wrought counterpart. The main fatigue crack in the PBF-EB Inconel 718 exhibited a sawtooth shaped path at the micro-scale, with intensive slip traces close to the crack surfaces owing to the very low work hardening rate. Based on the digital image correlation (DIC) analysis of the crack tip field, fatigue-crack sawtooth path in the PBF-EB Inconel 718 can be successfully predicted by using a strain energy density criterion, which dictates the crack growth follows the direction of minimum distance from the crack tip to elasto-plastic boundary. For the PBF-LB Inconel 718, the predominant fatigue crack was straight at low ΔK, but severe deflections occurred at the medium and high ΔK regimes. A clear correlation exists between the incipient intergranular cracks and the main crack path deflection. This suggests that once the accumulated damage in the plastic zone around the crack tip reaches the critical value, intergranular cracks can form the new front of the fatigue crack, causing the main crack path deflection. Elasto-plastic fracture mechanics parameters of rp and ΔCTOD, derived from the DIC-based crack tip field analysis, can qualitatively predict the lower crack growth rate of the PBF-LB Inconel 718.
Fatigue crack growth, Inconel 718, Additive manufacturing, Microstructure, Digital image correlation
Wang, Qiuyi
844f3f0c-d11d-48b2-a154-abb25e1d84c3
Bao, Rui
cffec0d0-e2f0-42ab-b3d6-af1742148e6f
Liu, Binchao
1b082094-1557-4780-a401-bc9b13003ea1
Lu, Songsong
daeae3a5-4a2d-4ee7-9d49-3ab06180ca53
Peng, Hui
d5f9d6f2-1695-4e07-9a09-9b363a54b632
Chen, Bo
be54a9a8-da2a-4e6f-ae0e-0b076be87daf
16 January 2024
Wang, Qiuyi
844f3f0c-d11d-48b2-a154-abb25e1d84c3
Bao, Rui
cffec0d0-e2f0-42ab-b3d6-af1742148e6f
Liu, Binchao
1b082094-1557-4780-a401-bc9b13003ea1
Lu, Songsong
daeae3a5-4a2d-4ee7-9d49-3ab06180ca53
Peng, Hui
d5f9d6f2-1695-4e07-9a09-9b363a54b632
Chen, Bo
be54a9a8-da2a-4e6f-ae0e-0b076be87daf
Wang, Qiuyi, Bao, Rui and Liu, Binchao
,
et al.
(2024)
Comparison of fatigue crack growth behaviour in electron-beam and laser powder-bed-fusion Inconel 718.
Materials Science and Engineering: A, 893, [146109].
(doi:10.1016/j.msea.2024.146109).
Abstract
A comparative study on fatigue crack growth behaviour was made between the electron-beam powder-bed-fusion (PBF-EB) and laser powder-bed-fusion (PBF-LB) Inconel 718. The crack followed a transgranular path with a faster propagation rate for the PBF-EB Inconel 718, whereas a combination of intergranular and transgranular path was observed for the PBF-LB, and its slower rate being comparable to the wrought counterpart. The main fatigue crack in the PBF-EB Inconel 718 exhibited a sawtooth shaped path at the micro-scale, with intensive slip traces close to the crack surfaces owing to the very low work hardening rate. Based on the digital image correlation (DIC) analysis of the crack tip field, fatigue-crack sawtooth path in the PBF-EB Inconel 718 can be successfully predicted by using a strain energy density criterion, which dictates the crack growth follows the direction of minimum distance from the crack tip to elasto-plastic boundary. For the PBF-LB Inconel 718, the predominant fatigue crack was straight at low ΔK, but severe deflections occurred at the medium and high ΔK regimes. A clear correlation exists between the incipient intergranular cracks and the main crack path deflection. This suggests that once the accumulated damage in the plastic zone around the crack tip reaches the critical value, intergranular cracks can form the new front of the fatigue crack, causing the main crack path deflection. Elasto-plastic fracture mechanics parameters of rp and ΔCTOD, derived from the DIC-based crack tip field analysis, can qualitatively predict the lower crack growth rate of the PBF-LB Inconel 718.
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Accepted/In Press date: 7 January 2024
e-pub ahead of print date: 9 January 2024
Published date: 16 January 2024
Keywords:
Fatigue crack growth, Inconel 718, Additive manufacturing, Microstructure, Digital image correlation
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Local EPrints ID: 489849
URI: http://eprints.soton.ac.uk/id/eprint/489849
ISSN: 0921-5093
PURE UUID: 86409f83-7cd2-4fa5-aef3-bb5b54d30ede
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Date deposited: 03 May 2024 16:42
Last modified: 09 May 2024 02:06
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Author:
Qiuyi Wang
Author:
Rui Bao
Author:
Binchao Liu
Author:
Songsong Lu
Author:
Hui Peng
Author:
Bo Chen
Corporate Author: et al.
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