Strain Rate Effect on Strain Localization in Alloy 718 Ni-Based Superalloy at Intermediate Temperature

Malo Jullien; R. L. Black; J. C. Stinville; Marc Legros; Damien Texier

doi:10.1007/978-3-031-63937-1_26

Strain Rate Effect on Strain Localization in Alloy 718 Ni-Based Superalloy at Intermediate Temperature

Malo Jullien, R. L. Black, J. C. Stinville, Marc Legros, Damien Texier

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Tensile tests on Alloy 718 Ni-based superalloyNi-based superalloy at 650^∘C at different strain ratesStrain rate revealed a strain-rate dependency on the fracture mode. A change from intergranular to transgranular fracture was observed in air as the strain rateStrain rate increased, mainly when Portevin-Le-ChatelierPortevin-Le-Chatelier (PLC) mesoscopic deformation bands were present. To better understand the link between strain rateStrain rate and fracture mode, a description of the strain localization in the early deformation stage is needed. In this study, high-resolution digital image correlationDigital image correlations (HR-DIC) was carried out at the onset of strain localization, a low strain rateStrain rate (LSR, ϵ˙ = 10^-4 s^-1) and at high strain rateStrain rate (HSR, ϵ˙ = 10^-2 s^-1). This latter condition aimed at investigating the microplasticityMicroplasticity development within PLC bands. The in-plane and out-of-plane displacement components of each single plastic event were measured to accurately assess and distinguish morphological sliding at grain boundariesGrain boundary (i.e., grain boundary sliding) andGrain boundary sliding dislocation slip. The deformation within the PLC bands was examined at macro, meso, and microscales. Statistical analyses highlighted the distribution and partitioning of these strain localization events related to different microstructural features, including grains, and grain and twin boundaries. Grain boundary slidingGrain boundary sliding was found to be more prominent at LSR. Interestingly, events near and parallel to twin boundaries are particularly intense regardless of the strain rateStrain rate. At HSR, grain boundary slidingGrain boundary sliding is less pronounced, and a high density of intragranular slip bands developed within the PLC bands; based on observations before and after the occurrence of the PLC band.

Original language	English (US)
Title of host publication	Superalloys 2024 - Proceedings of the 15th International Symposium on Superalloys
Editors	Jonathan Cormier, Ian Edmonds, Stephane Forsik, Paraskevas Kontis, Corey O’Connell, Timothy Smith, Akane Suzuki, Sammy Tin, Jian Zhang
Publisher	Springer
Pages	278-286
Number of pages	9
ISBN (Print)	9783031639364
DOIs	https://doi.org/10.1007/978-3-031-63937-1_26
State	Published - 2024
Event	15th International Symposium on Superalloys, ISS 2024 - Pennsylvania, United States Duration: Sep 8 2024 → Sep 12 2024

Publication series

Name	Minerals, Metals and Materials Series
ISSN (Print)	2367-1181
ISSN (Electronic)	2367-1696

Conference

Conference	15th International Symposium on Superalloys, ISS 2024
Country/Territory	United States
City	Pennsylvania
Period	9/8/24 → 9/12/24

Keywords

Digital image correlation
Grain boundary sliding
Ni-based superalloy
Portevin-Le-Chatelier
Slip localization

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Energy Engineering and Power Technology
Mechanics of Materials
Metals and Alloys
Materials Chemistry

Online availability

10.1007/978-3-031-63937-1_26

Library availability

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Cite this

Jullien, M., Black, R. L., Stinville, J. C., Legros, M., & Texier, D. (2024). Strain Rate Effect on Strain Localization in Alloy 718 Ni-Based Superalloy at Intermediate Temperature. In J. Cormier, I. Edmonds, S. Forsik, P. Kontis, C. O’Connell, T. Smith, A. Suzuki, S. Tin, & J. Zhang (Eds.), Superalloys 2024 - Proceedings of the 15th International Symposium on Superalloys (pp. 278-286). (Minerals, Metals and Materials Series). Springer. https://doi.org/10.1007/978-3-031-63937-1_26

Strain Rate Effect on Strain Localization in Alloy 718 Ni-Based Superalloy at Intermediate Temperature. / Jullien, Malo; Black, R. L.; Stinville, J. C. et al.
Superalloys 2024 - Proceedings of the 15th International Symposium on Superalloys. ed. / Jonathan Cormier; Ian Edmonds; Stephane Forsik; Paraskevas Kontis; Corey O’Connell; Timothy Smith; Akane Suzuki; Sammy Tin; Jian Zhang. Springer, 2024. p. 278-286 (Minerals, Metals and Materials Series).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Jullien, M, Black, RL, Stinville, JC, Legros, M & Texier, D 2024, Strain Rate Effect on Strain Localization in Alloy 718 Ni-Based Superalloy at Intermediate Temperature. in J Cormier, I Edmonds, S Forsik, P Kontis, C O’Connell, T Smith, A Suzuki, S Tin & J Zhang (eds), Superalloys 2024 - Proceedings of the 15th International Symposium on Superalloys. Minerals, Metals and Materials Series, Springer, pp. 278-286, 15th International Symposium on Superalloys, ISS 2024, Pennsylvania, United States, 9/8/24. https://doi.org/10.1007/978-3-031-63937-1_26

Jullien M, Black RL, Stinville JC, Legros M, Texier D. Strain Rate Effect on Strain Localization in Alloy 718 Ni-Based Superalloy at Intermediate Temperature. In Cormier J, Edmonds I, Forsik S, Kontis P, O’Connell C, Smith T, Suzuki A, Tin S, Zhang J, editors, Superalloys 2024 - Proceedings of the 15th International Symposium on Superalloys. Springer. 2024. p. 278-286. (Minerals, Metals and Materials Series). doi: 10.1007/978-3-031-63937-1_26

Jullien, Malo ; Black, R. L. ; Stinville, J. C. et al. / Strain Rate Effect on Strain Localization in Alloy 718 Ni-Based Superalloy at Intermediate Temperature. Superalloys 2024 - Proceedings of the 15th International Symposium on Superalloys. editor / Jonathan Cormier ; Ian Edmonds ; Stephane Forsik ; Paraskevas Kontis ; Corey O’Connell ; Timothy Smith ; Akane Suzuki ; Sammy Tin ; Jian Zhang. Springer, 2024. pp. 278-286 (Minerals, Metals and Materials Series).

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abstract = "Tensile tests on Alloy 718 Ni-based superalloyNi-based superalloy at 650∘C at different strain ratesStrain rate revealed a strain-rate dependency on the fracture mode. A change from intergranular to transgranular fracture was observed in air as the strain rateStrain rate increased, mainly when Portevin-Le-ChatelierPortevin-Le-Chatelier (PLC) mesoscopic deformation bands were present. To better understand the link between strain rateStrain rate and fracture mode, a description of the strain localization in the early deformation stage is needed. In this study, high-resolution digital image correlationDigital image correlations (HR-DIC) was carried out at the onset of strain localization, a low strain rateStrain rate (LSR, ϵ˙ = 10-4 s-1) and at high strain rateStrain rate (HSR, ϵ˙ = 10-2 s-1). This latter condition aimed at investigating the microplasticityMicroplasticity development within PLC bands. The in-plane and out-of-plane displacement components of each single plastic event were measured to accurately assess and distinguish morphological sliding at grain boundariesGrain boundary (i.e., grain boundary sliding) andGrain boundary sliding dislocation slip. The deformation within the PLC bands was examined at macro, meso, and microscales. Statistical analyses highlighted the distribution and partitioning of these strain localization events related to different microstructural features, including grains, and grain and twin boundaries. Grain boundary slidingGrain boundary sliding was found to be more prominent at LSR. Interestingly, events near and parallel to twin boundaries are particularly intense regardless of the strain rateStrain rate. At HSR, grain boundary slidingGrain boundary sliding is less pronounced, and a high density of intragranular slip bands developed within the PLC bands; based on observations before and after the occurrence of the PLC band.",

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author = "Malo Jullien and Black, {R. L.} and Stinville, {J. C.} and Marc Legros and Damien Texier",

note = "This work was supported by the European Research Council [project HT-S4 DefOx\u2014Grant number 948007]. A [CC-BY public copyright license] has been applied by the authors to the original manuscript and will be applied to all subsequent versions up to the Author Accepted Manuscript arising from this submission, in accordance with the grant\u2019s open access conditions. The authors are grateful to the Centre National de la Recherche Scientifique (CNRS) for the mobility grant with the International Research Project denoted \{"}CIN&MAT\{"}. RLB and JCS acknowledge the National Science Foundation (NSF award #2338346) for financial support. The authors particularly acknowledge the Raimond Castaing Microanalysis Centre (UAR 3623) for scanning electron microscopy access.; 15th International Symposium on Superalloys, ISS 2024 ; Conference date: 08-09-2024 Through 12-09-2024",

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N2 - Tensile tests on Alloy 718 Ni-based superalloyNi-based superalloy at 650∘C at different strain ratesStrain rate revealed a strain-rate dependency on the fracture mode. A change from intergranular to transgranular fracture was observed in air as the strain rateStrain rate increased, mainly when Portevin-Le-ChatelierPortevin-Le-Chatelier (PLC) mesoscopic deformation bands were present. To better understand the link between strain rateStrain rate and fracture mode, a description of the strain localization in the early deformation stage is needed. In this study, high-resolution digital image correlationDigital image correlations (HR-DIC) was carried out at the onset of strain localization, a low strain rateStrain rate (LSR, ϵ˙ = 10-4 s-1) and at high strain rateStrain rate (HSR, ϵ˙ = 10-2 s-1). This latter condition aimed at investigating the microplasticityMicroplasticity development within PLC bands. The in-plane and out-of-plane displacement components of each single plastic event were measured to accurately assess and distinguish morphological sliding at grain boundariesGrain boundary (i.e., grain boundary sliding) andGrain boundary sliding dislocation slip. The deformation within the PLC bands was examined at macro, meso, and microscales. Statistical analyses highlighted the distribution and partitioning of these strain localization events related to different microstructural features, including grains, and grain and twin boundaries. Grain boundary slidingGrain boundary sliding was found to be more prominent at LSR. Interestingly, events near and parallel to twin boundaries are particularly intense regardless of the strain rateStrain rate. At HSR, grain boundary slidingGrain boundary sliding is less pronounced, and a high density of intragranular slip bands developed within the PLC bands; based on observations before and after the occurrence of the PLC band.

AB - Tensile tests on Alloy 718 Ni-based superalloyNi-based superalloy at 650∘C at different strain ratesStrain rate revealed a strain-rate dependency on the fracture mode. A change from intergranular to transgranular fracture was observed in air as the strain rateStrain rate increased, mainly when Portevin-Le-ChatelierPortevin-Le-Chatelier (PLC) mesoscopic deformation bands were present. To better understand the link between strain rateStrain rate and fracture mode, a description of the strain localization in the early deformation stage is needed. In this study, high-resolution digital image correlationDigital image correlations (HR-DIC) was carried out at the onset of strain localization, a low strain rateStrain rate (LSR, ϵ˙ = 10-4 s-1) and at high strain rateStrain rate (HSR, ϵ˙ = 10-2 s-1). This latter condition aimed at investigating the microplasticityMicroplasticity development within PLC bands. The in-plane and out-of-plane displacement components of each single plastic event were measured to accurately assess and distinguish morphological sliding at grain boundariesGrain boundary (i.e., grain boundary sliding) andGrain boundary sliding dislocation slip. The deformation within the PLC bands was examined at macro, meso, and microscales. Statistical analyses highlighted the distribution and partitioning of these strain localization events related to different microstructural features, including grains, and grain and twin boundaries. Grain boundary slidingGrain boundary sliding was found to be more prominent at LSR. Interestingly, events near and parallel to twin boundaries are particularly intense regardless of the strain rateStrain rate. At HSR, grain boundary slidingGrain boundary sliding is less pronounced, and a high density of intragranular slip bands developed within the PLC bands; based on observations before and after the occurrence of the PLC band.

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KW - Slip localization

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