Additive manufacturing-based repair of IN718 superalloy and high-cycle fatigue assessment of the joint
Additive manufacturing-based repair of IN718 superalloy and high-cycle fatigue assessment of the joint
Room-temperature high-cycle fatigue (HCF) of IN718 repaired joint via laser direct energy deposition (DED) were studied with the fatigue axis perpendicular to the joint interface. Solution treated and aged (STA) were compared with directly aged (DA) conditions. The wrought IN718 substrate showed equiaxed grains with a size of ∼90 µm and a high fraction of annealing twins, whereas the DED deposit revealed a mixture of equiaxed and columnar grains with an average size of ∼20 µm. There was little difference between the STA and DA conditions in the grain length-scale. Micro-hardness results highlighted the need for the heat treatment as it can remove the heat-affected zone and hardness dip, creating a uniform hardness profile across the joint. Although the monolithic DED deposit had a similar tensile strength to the wrought substrate, the DED joint exhibited an overall decreased HCF performance, regardless of the heat treatment conditions. When the fatigue stress was low, the STA condition had a better HCF performance than the DA, however, the opposite trend appeared for the high stress, resulting in a cross-over point on the stress-life S-N plot. Interrupted fatigue tests, combined with microscopy and fractography, revealed that the fatigue failure occurred in the substrate for the DED joint in the DA condition, whilst in the deposit zone for the STA condition due to the distribution and fracture of the Laves and δ phases. Grain boundary cracking in the substrate near the substrate-to-deposit interface can occur in both cases, probably due to the Nb-rich liquid films.
Sarkar, Riddhi
97df7410-6878-4c93-9f0c-d9abc49eceb3
Chen, Bo
be54a9a8-da2a-4e6f-ae0e-0b076be87daf
Fitzpatrick, Michael E.
b926f6e7-c189-4ad6-8a63-b783ebc4423d
Fabijanic, Daniel
bbf0d960-0c29-4920-9181-501a532417bc
Hilditch, Tim
858a3a17-d8f4-4b3f-9129-fb467c13d462
11 November 2022
Sarkar, Riddhi
97df7410-6878-4c93-9f0c-d9abc49eceb3
Chen, Bo
be54a9a8-da2a-4e6f-ae0e-0b076be87daf
Fitzpatrick, Michael E.
b926f6e7-c189-4ad6-8a63-b783ebc4423d
Fabijanic, Daniel
bbf0d960-0c29-4920-9181-501a532417bc
Hilditch, Tim
858a3a17-d8f4-4b3f-9129-fb467c13d462
Sarkar, Riddhi, Chen, Bo, Fitzpatrick, Michael E., Fabijanic, Daniel and Hilditch, Tim
(2022)
Additive manufacturing-based repair of IN718 superalloy and high-cycle fatigue assessment of the joint.
Additive Manufacturing, 60 (Part A), [103276].
(doi:10.1016/j.addma.2022.103276).
Abstract
Room-temperature high-cycle fatigue (HCF) of IN718 repaired joint via laser direct energy deposition (DED) were studied with the fatigue axis perpendicular to the joint interface. Solution treated and aged (STA) were compared with directly aged (DA) conditions. The wrought IN718 substrate showed equiaxed grains with a size of ∼90 µm and a high fraction of annealing twins, whereas the DED deposit revealed a mixture of equiaxed and columnar grains with an average size of ∼20 µm. There was little difference between the STA and DA conditions in the grain length-scale. Micro-hardness results highlighted the need for the heat treatment as it can remove the heat-affected zone and hardness dip, creating a uniform hardness profile across the joint. Although the monolithic DED deposit had a similar tensile strength to the wrought substrate, the DED joint exhibited an overall decreased HCF performance, regardless of the heat treatment conditions. When the fatigue stress was low, the STA condition had a better HCF performance than the DA, however, the opposite trend appeared for the high stress, resulting in a cross-over point on the stress-life S-N plot. Interrupted fatigue tests, combined with microscopy and fractography, revealed that the fatigue failure occurred in the substrate for the DED joint in the DA condition, whilst in the deposit zone for the STA condition due to the distribution and fracture of the Laves and δ phases. Grain boundary cracking in the substrate near the substrate-to-deposit interface can occur in both cases, probably due to the Nb-rich liquid films.
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Accepted/In Press date: 7 November 2022
e-pub ahead of print date: 9 November 2022
Published date: 11 November 2022
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Local EPrints ID: 489924
URI: http://eprints.soton.ac.uk/id/eprint/489924
ISSN: 2214-8604
PURE UUID: 67d4edcb-fc99-48e3-97fa-d666869c0642
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Date deposited: 07 May 2024 16:53
Last modified: 08 May 2024 02:08
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Author:
Riddhi Sarkar
Author:
Bo Chen
Author:
Michael E. Fitzpatrick
Author:
Daniel Fabijanic
Author:
Tim Hilditch
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