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＜conference paper＞
Numerical simulation of fatigue crack growth with stress-strain relationship under cyclic loading

Creator	Creator Name SHIMOOKA, Tsukasa 下岡, 司シモオカ, ツカサ Affiliation Affiliation Name Department of Naval Architecture and Ocean Engineering, Graduate School of Engineering, Kyushu University : Master course student 九州大学大学院工学工学府船舶海洋工学専攻 : 大学院修士
	Creator Name MURAKAMI, Koji 村上, 幸治ムラカミ, コウジ Affiliation Affiliation Name Technical Division, School of Engineering, Kyushu University : Senior Technician 九州大学工学部技術部 : 技術専門職員
	Author PID K008267 0000-0003-3227-8413 Creator Name MATSUDA, Kazuki 松田, 和貴マツダ, カズキ Affiliation Affiliation Name Department of Marine Systems Engineering, Faculty of Engineering, Kyushu University : Associate Professor 九州大学大学院工学研究院海洋システム工学部門 : 准教授
	Author PID K001356 0000-0001-6813-4089 Creator Name GOTOH, Koji 後藤, 浩二ゴトウ, コウジ Affiliation Affiliation Name Department of Marine Systems Engineering, Faculty of Engineering, Kyushu University : Professor 九州大学大学院工学研究院海洋システム工学部門 : 教授
Language	English
Date	2023-10-12
Source Title	Proceedings of The 36th Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures (TEAM 2023)
First Page	122
Last Page	128
Conference	Name The Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures(TEAM2023) Sequence 36 Date Oct. 10 -Oct. 13, 2023 Venue 부경대학교 Pukyong National University 釜慶大学校 Place 부산 釜山 Busan Country Korea, Republic of
Publication Type	Accepted Manuscript
Access Rights	open access
Rights	Copyright by Authors of Presentation
Related DOI
Related URI	https://team2023.pknu.ac.kr/TEAM2023/
Abstract	In numerical simulations of fatigue crack propagation, the true stress-true strain relationship under cyclic loading should be considered, but in simulations modelling crack opening behaviour, the str...ess-strain relationship of the material is regarded as rigid plastic or isotropically hardened elastic-plastic material from the point of view of model simplification. In this study, the true stress-true strain relationship under cyclic loading, estimated from the true stress-true strain relationship under monotonic tensile loading, is implemented in fatigue crack propagation simulations of work-hardened materials proposed by some of authors. Fatigue crack growth curves under the following three loadings, (1) constant cyclic loading under different stress ratios, (2) two-stage block loading cycles, (3) constant cyclic loading with a spike load, were estimated and compared with the measured results obtained in previous studies. The results show that the accuracy of the fatigue crack growth estimation is better than the conventional stress-strain relationship assuming elastic-perfectly plastic materials.show more
Table of Contents	1. INTRODUCTION 2. OVERVIEW OF THE METHOD FOR ESTIMATING CYCLIC TRUE STRESS-STRAIN RELATIONSHIP 3. NUMERICAL SIMULATION OF FATIGUE CRACK PROPAGATION 4. CONCLUSION ACKNOWLEDGEMENTS REFERENCES

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Record ID	7157018
Related URI	https://team2023.pknu.ac.kr/TEAM2023/
Subject Terms	Stress-strain diagrams under cyclic loading
Subject Terms	Numerical simulation of fatigue crack propagation
Notes	ID-15
Funding Information	Funder Name Japan Society for the Promotion of Science (JSPS) 日本学術振興会 Award Number 20K21048 Award Title Establishment of fatigue crack propagation law without stress intensity factor as parameter 応力拡大係数の評価を不要とする疲労亀裂伝播則の構築
Created Date	2023.11.13
Modified Date	2023.11.17