INFLUENCE OF AXISYMMETRIC NOTCHES ON THE LOW CYCLE FATIGUE LIFE OF A 316L STAINLESS STEEL IN THE FRAME OF INCEFA-SCALE PROJECT

L. Doremus; R. Kallout; C. Jacquemoud; Z. Que; O. Ancelet; M. Grimm; S. Arrieta; G. Dundulis; L. Casulli; S. Courtin; A. Fernandez-Vina; R. Novotny; L. de Baglion; J. C. Le Roux; T. Seppanen; J. Beswick

doi:10.1115/PVP2025-155088

INFLUENCE OF AXISYMMETRIC NOTCHES ON THE LOW CYCLE FATIGUE LIFE OF A 316L STAINLESS STEEL IN THE FRAME OF INCEFA-SCALE PROJECT

L. Doremus, R. Kallout, C. Jacquemoud, Z. Que, O. Ancelet, M. Grimm, S. Arrieta, G. Dundulis, L. Casulli, S. Courtin, A. Fernandez-Vina, R. Novotny, L. de Baglion, J. C. Le Roux, T. Seppanen, J. Beswick

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

Abstract

Stress concentration areas such as notches are common in nuclear plant components and have to be taken into account in fatigue life analyses. A high conservatism of current approaches and codes’ design rules (such as Fatigue Strength Reduction Factor in ASME code) to evaluate fatigue lifetimes in such areas is expected. Therefore, in the frame of EU INCEFA-SCALE project, a test campaign has been performed to better understand and model the crack initiation and growth on notched specimens. INCEFA-SCALE is a five-year project supported by the European Commission HORIZON2020 program. It aims to address the gap between the good Operational Experience of Nuclear Pressurized Water Reactor (PWR) plant and the difficulty in obtaining an acceptable environmental assisted fatigue assessment result. A reason for this discrepancy is that the assessment procedures described in codes and standards are based on laboratory test results that simplify and idealize the real conditions that plant components are subjected to. The assessment of components with stress concentrations areas are one of the main identified topics to fulfil this objective. This paper gives an overview of the fatigue testing on notched specimens carried out to date and of the Finite Element Analyses (FEA) undertaken to help the design of the test matrix and the results’analyses. Two notch radii of 0.5 mm and 2 mm and a common value of diameter reduction (Δ=1.3) were chosen with the help of finite element elastic calculations. Stress concentration factor Kt values are approximately 4 and 2.6. Since fatigue results on notched specimens are supposed to be compared to uniaxial standard fatigue tests, choice was made to use comparable strain amplitude. Finite elements elastoplastic calculations were thus performed to evaluate the loads needed to achieve strain amplitudes of 0.3% and 0.6% at the notch tip. Indeed, load control was chosen for the fatigue testing to get a common control among all labs and ease the control on PWR rigs. Tests are planned in air and PWR environments to assess if a combined effect of stress concentration and primary water environment exists. First results show higher fatigue lives than the ones predicted by the NUREG/CR-6909 rev 1 mean air curve. However, the uncertainty of the strain at the notch tip is discussed as the effect of strain gradient and specimen diameter.

Original language	English
Title of host publication	Codes and Standards
Publisher	American Society of Mechanical Engineers (ASME)
ISBN (Electronic)	9780791889046
DOIs	https://doi.org/10.1115/PVP2025-155088
Publication status	Published - 1 Jan 2025
Externally published	Yes
Event	ASME 2025 Pressure Vessels and Piping Conference, PVP 2025 - Montreal, Canada Duration: 20 Jul 2025 → 25 Jul 2025

Publication series

Name	American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP
Volume	1
ISSN (Print)	0277-027X

Conference

Conference	ASME 2025 Pressure Vessels and Piping Conference, PVP 2025
Country/Territory	Canada
City	Montreal
Period	20/07/25 → 25/07/25

Keywords

environmentally assisted fatigue
features testing
notched specimens
pressurized water reactor

Access to Document

10.1115/PVP2025-155088

Cite this

Doremus, L., Kallout, R., Jacquemoud, C., Que, Z., Ancelet, O., Grimm, M., Arrieta, S., Dundulis, G., Casulli, L., Courtin, S., Fernandez-Vina, A., Novotny, R., de Baglion, L., Le Roux, J. C., Seppanen, T., & Beswick, J. (2025). INFLUENCE OF AXISYMMETRIC NOTCHES ON THE LOW CYCLE FATIGUE LIFE OF A 316L STAINLESS STEEL IN THE FRAME OF INCEFA-SCALE PROJECT. In Codes and Standards Article v001t01a081 (American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP; Vol. 1). American Society of Mechanical Engineers (ASME). https://doi.org/10.1115/PVP2025-155088

@inproceedings{a6a17e6424264c5da6a8ac1e00ed7da4,

title = "INFLUENCE OF AXISYMMETRIC NOTCHES ON THE LOW CYCLE FATIGUE LIFE OF A 316L STAINLESS STEEL IN THE FRAME OF INCEFA-SCALE PROJECT",

abstract = "Stress concentration areas such as notches are common in nuclear plant components and have to be taken into account in fatigue life analyses. A high conservatism of current approaches and codes{\textquoteright} design rules (such as Fatigue Strength Reduction Factor in ASME code) to evaluate fatigue lifetimes in such areas is expected. Therefore, in the frame of EU INCEFA-SCALE project, a test campaign has been performed to better understand and model the crack initiation and growth on notched specimens. INCEFA-SCALE is a five-year project supported by the European Commission HORIZON2020 program. It aims to address the gap between the good Operational Experience of Nuclear Pressurized Water Reactor (PWR) plant and the difficulty in obtaining an acceptable environmental assisted fatigue assessment result. A reason for this discrepancy is that the assessment procedures described in codes and standards are based on laboratory test results that simplify and idealize the real conditions that plant components are subjected to. The assessment of components with stress concentrations areas are one of the main identified topics to fulfil this objective. This paper gives an overview of the fatigue testing on notched specimens carried out to date and of the Finite Element Analyses (FEA) undertaken to help the design of the test matrix and the results{\textquoteright}analyses. Two notch radii of 0.5 mm and 2 mm and a common value of diameter reduction (Δ=1.3) were chosen with the help of finite element elastic calculations. Stress concentration factor Kt values are approximately 4 and 2.6. Since fatigue results on notched specimens are supposed to be compared to uniaxial standard fatigue tests, choice was made to use comparable strain amplitude. Finite elements elastoplastic calculations were thus performed to evaluate the loads needed to achieve strain amplitudes of 0.3\% and 0.6\% at the notch tip. Indeed, load control was chosen for the fatigue testing to get a common control among all labs and ease the control on PWR rigs. Tests are planned in air and PWR environments to assess if a combined effect of stress concentration and primary water environment exists. First results show higher fatigue lives than the ones predicted by the NUREG/CR-6909 rev 1 mean air curve. However, the uncertainty of the strain at the notch tip is discussed as the effect of strain gradient and specimen diameter.",

keywords = "environmentally assisted fatigue, features testing, notched specimens, pressurized water reactor",

author = "L. Doremus and R. Kallout and C. Jacquemoud and Z. Que and O. Ancelet and M. Grimm and S. Arrieta and G. Dundulis and L. Casulli and S. Courtin and A. Fernandez-Vina and R. Novotny and \{de Baglion\}, L. and \{Le Roux\}, \{J. C.\} and T. Seppanen and J. Beswick",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 by ASME.; ASME 2025 Pressure Vessels and Piping Conference, PVP 2025 ; Conference date: 20-07-2025 Through 25-07-2025",

year = "2025",

month = jan,

day = "1",

doi = "10.1115/PVP2025-155088",

language = "English",

series = "American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP",

publisher = "American Society of Mechanical Engineers (ASME)",

booktitle = "Codes and Standards",

}

Doremus, L, Kallout, R, Jacquemoud, C, Que, Z, Ancelet, O, Grimm, M, Arrieta, S, Dundulis, G, Casulli, L, Courtin, S, Fernandez-Vina, A, Novotny, R, de Baglion, L, Le Roux, JC, Seppanen, T & Beswick, J 2025, INFLUENCE OF AXISYMMETRIC NOTCHES ON THE LOW CYCLE FATIGUE LIFE OF A 316L STAINLESS STEEL IN THE FRAME OF INCEFA-SCALE PROJECT. in Codes and Standards., v001t01a081, American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP, vol. 1, American Society of Mechanical Engineers (ASME), ASME 2025 Pressure Vessels and Piping Conference, PVP 2025, Montreal, Canada, 20/07/25. https://doi.org/10.1115/PVP2025-155088

INFLUENCE OF AXISYMMETRIC NOTCHES ON THE LOW CYCLE FATIGUE LIFE OF A 316L STAINLESS STEEL IN THE FRAME OF INCEFA-SCALE PROJECT. / Doremus, L.; Kallout, R.; Jacquemoud, C. et al.
Codes and Standards. American Society of Mechanical Engineers (ASME), 2025. v001t01a081 (American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP; Vol. 1).

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

TY - GEN

T1 - INFLUENCE OF AXISYMMETRIC NOTCHES ON THE LOW CYCLE FATIGUE LIFE OF A 316L STAINLESS STEEL IN THE FRAME OF INCEFA-SCALE PROJECT

AU - Doremus, L.

AU - Kallout, R.

AU - Jacquemoud, C.

AU - Que, Z.

AU - Ancelet, O.

AU - Grimm, M.

AU - Arrieta, S.

AU - Dundulis, G.

AU - Casulli, L.

AU - Courtin, S.

AU - Fernandez-Vina, A.

AU - Novotny, R.

AU - de Baglion, L.

AU - Le Roux, J. C.

AU - Seppanen, T.

AU - Beswick, J.

PY - 2025/1/1

Y1 - 2025/1/1

N2 - Stress concentration areas such as notches are common in nuclear plant components and have to be taken into account in fatigue life analyses. A high conservatism of current approaches and codes’ design rules (such as Fatigue Strength Reduction Factor in ASME code) to evaluate fatigue lifetimes in such areas is expected. Therefore, in the frame of EU INCEFA-SCALE project, a test campaign has been performed to better understand and model the crack initiation and growth on notched specimens. INCEFA-SCALE is a five-year project supported by the European Commission HORIZON2020 program. It aims to address the gap between the good Operational Experience of Nuclear Pressurized Water Reactor (PWR) plant and the difficulty in obtaining an acceptable environmental assisted fatigue assessment result. A reason for this discrepancy is that the assessment procedures described in codes and standards are based on laboratory test results that simplify and idealize the real conditions that plant components are subjected to. The assessment of components with stress concentrations areas are one of the main identified topics to fulfil this objective. This paper gives an overview of the fatigue testing on notched specimens carried out to date and of the Finite Element Analyses (FEA) undertaken to help the design of the test matrix and the results’analyses. Two notch radii of 0.5 mm and 2 mm and a common value of diameter reduction (Δ=1.3) were chosen with the help of finite element elastic calculations. Stress concentration factor Kt values are approximately 4 and 2.6. Since fatigue results on notched specimens are supposed to be compared to uniaxial standard fatigue tests, choice was made to use comparable strain amplitude. Finite elements elastoplastic calculations were thus performed to evaluate the loads needed to achieve strain amplitudes of 0.3% and 0.6% at the notch tip. Indeed, load control was chosen for the fatigue testing to get a common control among all labs and ease the control on PWR rigs. Tests are planned in air and PWR environments to assess if a combined effect of stress concentration and primary water environment exists. First results show higher fatigue lives than the ones predicted by the NUREG/CR-6909 rev 1 mean air curve. However, the uncertainty of the strain at the notch tip is discussed as the effect of strain gradient and specimen diameter.

AB - Stress concentration areas such as notches are common in nuclear plant components and have to be taken into account in fatigue life analyses. A high conservatism of current approaches and codes’ design rules (such as Fatigue Strength Reduction Factor in ASME code) to evaluate fatigue lifetimes in such areas is expected. Therefore, in the frame of EU INCEFA-SCALE project, a test campaign has been performed to better understand and model the crack initiation and growth on notched specimens. INCEFA-SCALE is a five-year project supported by the European Commission HORIZON2020 program. It aims to address the gap between the good Operational Experience of Nuclear Pressurized Water Reactor (PWR) plant and the difficulty in obtaining an acceptable environmental assisted fatigue assessment result. A reason for this discrepancy is that the assessment procedures described in codes and standards are based on laboratory test results that simplify and idealize the real conditions that plant components are subjected to. The assessment of components with stress concentrations areas are one of the main identified topics to fulfil this objective. This paper gives an overview of the fatigue testing on notched specimens carried out to date and of the Finite Element Analyses (FEA) undertaken to help the design of the test matrix and the results’analyses. Two notch radii of 0.5 mm and 2 mm and a common value of diameter reduction (Δ=1.3) were chosen with the help of finite element elastic calculations. Stress concentration factor Kt values are approximately 4 and 2.6. Since fatigue results on notched specimens are supposed to be compared to uniaxial standard fatigue tests, choice was made to use comparable strain amplitude. Finite elements elastoplastic calculations were thus performed to evaluate the loads needed to achieve strain amplitudes of 0.3% and 0.6% at the notch tip. Indeed, load control was chosen for the fatigue testing to get a common control among all labs and ease the control on PWR rigs. Tests are planned in air and PWR environments to assess if a combined effect of stress concentration and primary water environment exists. First results show higher fatigue lives than the ones predicted by the NUREG/CR-6909 rev 1 mean air curve. However, the uncertainty of the strain at the notch tip is discussed as the effect of strain gradient and specimen diameter.

KW - environmentally assisted fatigue

KW - features testing

KW - notched specimens

KW - pressurized water reactor

UR - https://www.scopus.com/pages/publications/105020667209

U2 - 10.1115/PVP2025-155088

DO - 10.1115/PVP2025-155088

M3 - Conference contribution

AN - SCOPUS:105020667209

T3 - American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP

BT - Codes and Standards

PB - American Society of Mechanical Engineers (ASME)

T2 - ASME 2025 Pressure Vessels and Piping Conference, PVP 2025

Y2 - 20 July 2025 through 25 July 2025

ER -

Doremus L, Kallout R, Jacquemoud C, Que Z, Ancelet O, Grimm M et al. INFLUENCE OF AXISYMMETRIC NOTCHES ON THE LOW CYCLE FATIGUE LIFE OF A 316L STAINLESS STEEL IN THE FRAME OF INCEFA-SCALE PROJECT. In Codes and Standards. American Society of Mechanical Engineers (ASME). 2025. v001t01a081. (American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP). doi: 10.1115/PVP2025-155088

INFLUENCE OF AXISYMMETRIC NOTCHES ON THE LOW CYCLE FATIGUE LIFE OF A 316L STAINLESS STEEL IN THE FRAME OF INCEFA-SCALE PROJECT

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