Applicability of nonlinear kinematic hardening models to low cycle fatigue simulation of C(T) specimen

Hune Tae Kim; Gyo Geun Youn; Jong Min Lee; Yun Jae Kim; Jin Weon Kim

doi:10.1115/PVP2018-84653

Applicability of nonlinear kinematic hardening models to low cycle fatigue simulation of C(T) specimen

Hune Tae Kim, Gyo Geun Youn, Jong Min Lee, Yun Jae Kim, Jin Weon Kim

School of Mechanical Engineering

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

Abstract

To perform low cycle fatigue analysis on nuclear structural materials under cyclic loading, cyclic hardening rules should be determined. In this study, the determination of linear and nonlinear kinematic hardening model parameters based on limited material test data is proposed. Chaboche model parameters are determined from hysteresis loops for the purpose of comparison. Simulation of cyclic C(T) test is performed using the hardening models. In cyclic C(T) test, SA508 Gr.1a low alloy steel and SA312 TP316L stainless steel were taken and incremental loading sequence was adopted. In the loading sequence, displacement control was used for loading steps and load control was applied for unloading steps to maintain constant load ratio. A constant displacement increment was applied after each cycle. The simulation results using A&F model and Chaboche model are compared to verify the applicability of A&F model.

Original language	English
Title of host publication	Design and Analysis
Publisher	American Society of Mechanical Engineers (ASME)
ISBN (Electronic)	9780791851623
DOIs	https://doi.org/10.1115/PVP2018-84653
Publication status	Published - 2018
Event	ASME 2018 Pressure Vessels and Piping Conference, PVP 2018 - Prague, Czech Republic Duration: 2018 Jul 15 → 2018 Jul 20

Publication series

Name	American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP
Volume	3A
ISSN (Print)	0277-027X

Other

Other	ASME 2018 Pressure Vessels and Piping Conference, PVP 2018
Country/Territory	Czech Republic
City	Prague
Period	18/7/15 → 18/7/20

ASJC Scopus subject areas

Mechanical Engineering

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10.1115/PVP2018-84653

Cite this

Kim, H. T., Youn, G. G., Lee, J. M., Kim, Y. J., & Kim, J. W. (2018). Applicability of nonlinear kinematic hardening models to low cycle fatigue simulation of C(T) specimen. In Design and Analysis (American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP; Vol. 3A). American Society of Mechanical Engineers (ASME). https://doi.org/10.1115/PVP2018-84653

Applicability of nonlinear kinematic hardening models to low cycle fatigue simulation of C(T) specimen. / Kim, Hune Tae; Youn, Gyo Geun; Lee, Jong Min et al.
Design and Analysis. American Society of Mechanical Engineers (ASME), 2018. (American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP; Vol. 3A).

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

Kim, HT, Youn, GG, Lee, JM, Kim, YJ & Kim, JW 2018, Applicability of nonlinear kinematic hardening models to low cycle fatigue simulation of C(T) specimen. in Design and Analysis. American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP, vol. 3A, American Society of Mechanical Engineers (ASME), ASME 2018 Pressure Vessels and Piping Conference, PVP 2018, Prague, Czech Republic, 18/7/15. https://doi.org/10.1115/PVP2018-84653

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abstract = "To perform low cycle fatigue analysis on nuclear structural materials under cyclic loading, cyclic hardening rules should be determined. In this study, the determination of linear and nonlinear kinematic hardening model parameters based on limited material test data is proposed. Chaboche model parameters are determined from hysteresis loops for the purpose of comparison. Simulation of cyclic C(T) test is performed using the hardening models. In cyclic C(T) test, SA508 Gr.1a low alloy steel and SA312 TP316L stainless steel were taken and incremental loading sequence was adopted. In the loading sequence, displacement control was used for loading steps and load control was applied for unloading steps to maintain constant load ratio. A constant displacement increment was applied after each cycle. The simulation results using A&F model and Chaboche model are compared to verify the applicability of A&F model.",

author = "Kim, {Hune Tae} and Youn, {Gyo Geun} and Lee, {Jong Min} and Kim, {Yun Jae} and Kim, {Jin Weon}",

note = "Funding Information: This work was supported by the Korea Institute of Energy Technology Evaluation and Planning (KETEP), and the Ministry of Trade, Industry & Energy (MOTIE) of the Republic of Korea (No. 20141520100860), by National Research Foundation of Korea (NRF) funded by the Ministry of Science and ICT (NRF-2017R1A2B2009759), by KOREA HYDRO & NUCLEAR POWER CO., LTD (Project No. 제2017-기술-13호, Project Name : Development of an Integrity Assessment Procedure for Cracked Nuclear Components under Seismic Events). Publisher Copyright: Copyright {\textcopyright} 2018 ASME.; ASME 2018 Pressure Vessels and Piping Conference, PVP 2018 ; Conference date: 15-07-2018 Through 20-07-2018",

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doi = "10.1115/PVP2018-84653",

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N1 - Funding Information: This work was supported by the Korea Institute of Energy Technology Evaluation and Planning (KETEP), and the Ministry of Trade, Industry & Energy (MOTIE) of the Republic of Korea (No. 20141520100860), by National Research Foundation of Korea (NRF) funded by the Ministry of Science and ICT (NRF-2017R1A2B2009759), by KOREA HYDRO & NUCLEAR POWER CO., LTD (Project No. 제2017-기술-13호, Project Name : Development of an Integrity Assessment Procedure for Cracked Nuclear Components under Seismic Events). Publisher Copyright: Copyright © 2018 ASME.

PY - 2018

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N2 - To perform low cycle fatigue analysis on nuclear structural materials under cyclic loading, cyclic hardening rules should be determined. In this study, the determination of linear and nonlinear kinematic hardening model parameters based on limited material test data is proposed. Chaboche model parameters are determined from hysteresis loops for the purpose of comparison. Simulation of cyclic C(T) test is performed using the hardening models. In cyclic C(T) test, SA508 Gr.1a low alloy steel and SA312 TP316L stainless steel were taken and incremental loading sequence was adopted. In the loading sequence, displacement control was used for loading steps and load control was applied for unloading steps to maintain constant load ratio. A constant displacement increment was applied after each cycle. The simulation results using A&F model and Chaboche model are compared to verify the applicability of A&F model.

AB - To perform low cycle fatigue analysis on nuclear structural materials under cyclic loading, cyclic hardening rules should be determined. In this study, the determination of linear and nonlinear kinematic hardening model parameters based on limited material test data is proposed. Chaboche model parameters are determined from hysteresis loops for the purpose of comparison. Simulation of cyclic C(T) test is performed using the hardening models. In cyclic C(T) test, SA508 Gr.1a low alloy steel and SA312 TP316L stainless steel were taken and incremental loading sequence was adopted. In the loading sequence, displacement control was used for loading steps and load control was applied for unloading steps to maintain constant load ratio. A constant displacement increment was applied after each cycle. The simulation results using A&F model and Chaboche model are compared to verify the applicability of A&F model.

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Applicability of nonlinear kinematic hardening models to low cycle fatigue simulation of C(T) specimen

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