Publications

Categories	Multiscale Multiphysics Beyond FEM Verification Validation Fatigue Brittle fracture Ductile fracture Creep Crack arrest Fracture criterion In-situ observation Material characterisation
Authors, Keywords
Years	ー

No.	Authors	Title	Journal	Volume (Year), Pages	Categories
81	Hongchang Zhou Masao Kinefuchi Yasuhito Takashima Kazuki Shibanuma*	Multiscale modelling strategy for predicting fatigue performance of welded joints	International Journal of Mechanical Sciences	284 (2024), 190751.	Multiscale Validation Fatigue Fracture criterion
80	Kota Sagara Taiga Fukada Kenji Tokuda Tetsuya Matsunaga Kamran Nikbin Kazuki Shibanuma*	Integrated model for simulating Coble creep deformation and void nucleation/growth in polycrystalline solids – Part II: Validation for material design	Materials & Design	244 (2024), 113197.	Multiscale Multiphysics Verification Validation Creep Fracture criterion
79	Kazuki Shibanuma* Kota Sagara Taiga Fukada Kenji Tokuda Tetsuya Matsunaga Kamran Nikbin	Integrated model for simulating Coble creep deformation and void nucleation/growth in polycrystalline solids – Part I: Theoretical framework	Materials & Design	244 (2024), 113198.	Multiscale Multiphysics Verification Validation Creep Fracture criterion
78	Kazuki Shibanuma*	A multiscale integrated model for predicting fatigue life of steels (Technical Topic, in Japanese)	Journal of the Society of Materials Science, Japan	73 (2024), 658-662.	Multiscale Validation Fatigue
74	Hongchang Zhou Zijie Liu Shoichi Kikuchi Kazuki Shibanuma*	Analysis of fatigue performance of austenitic stainless steels with bimodal harmonic structures based on multiscale model simulations	Materials & Design	226 (2023), 111657.	Multiscale Validation Fatigue Material characterisation
73	Kazuki Shibanuma* Taiga Fukada Hideo Yasumoto Kenji Tokuda Byung-Nam Kim Kamran Nikbin	Representative volume element model for quantitatively predicting the influence of 3D polycrystalline morphology on Coble creep deformation	Materials & Design	226 (2023), 111635.	Multiscale Multiphysics Validation Creep
71	Hongchang Zhou Yuta Suzuki Masao Kinefuchi Siegfried Schmauder Kiarash Dogahe Kazuki Shibanuma*	Bridging strategy between microscopic and macroscopic crack growth simulations to predict fatigue strength of steels	International Journal of Fatigue	168 (2023), 107386.	Multiscale Validation Fatigue Fracture criterion Material characterisation
68	Hongchang Zhou Yuta Suzuki Masao Kinefuchi Kazuki Shibanuma*	Applicability of the multiscale model for predicting fatigue strength to short and long crack problems	ISIJ International	62 (2022), 2126-2131.	Multiscale Validation Fatigue Fracture criterion
66	Hongchang Zhou Zijie Liu Masao Kinefuchi Kazuki Shibanuma*	Multiscale modelling strategy for predicting fatigue lives and limits of steels based on a generalised evaluation method of grain boundaries effects	International Journal of Fatigue	158 (2022), 106749.	Multiscale Validation Fatigue Fracture criterion Material characterisation
58	Hiroaki Ito Yuta Suzuki Hideaki Nishikawa Masao Kinefuchi Manabu Enoki Kazuki Shibanuma*	Multiscale model prediction of ferritic steel fatigue strength based on microstructural information, tensile properties, and loading conditions (no adjustable material constants)	International Journal of Mechanical Sciences	170 (2020), 105339.	Multiscale Validation Fatigue Fracture criterion In-situ observation Material characterisation
47	Kazuki Shibanuma* Koya Ueda Hiroaki Ito Yoshiki Nemoto Masao Kinefuchi Katsuyuki Suzuki Manabu Enoki	Model for predicting fatigue life and limit of steels based on micromechanics of small crack growth	Materials & Design	139 (2018), 269-282.	Multiscale Validation Fatigue Fracture criterion In-situ observation Material characterisation
46	Kazuki Shibanuma* Yoshiki Nemoto Takashi Hiraide Katsuyuki Suzuki Sunao Sadamatsu Yoshitaka Adachi Shuji Aihara	A strategy to predict the fracture toughness of steels with a banded ferrite-pearlite structure based on the micromechanics of brittle fracture initiation	Acta Materialia	144 (2018), 386-399.	Multiscale Validation Brittle fracture Fracture criterion Material characterisation
40	Itsuki Kawata* Takashi Hiraide Kazuki Shibanuma Tomoya Kawabata Shuji Aihara	Development of cleavage fracture initiation model for bainite steels based on micro mechanism	International Journal of Offshore and Polar Engineering	26 (2016), 278-286.	Multiscale Validation Brittle fracture Fracture criterion
36	Yuki Yamamoto Kazuki Shibanuma* Fuminori Yanagimoto Katsuyuki Suzuki Shuji Aihara Hiroyuki Shirahata	Multiscale model synthesis to clarify the relationship between microstructures of steel and macroscopic brittle crack arrest behavior – Part II: Application to crack arrest test (in Japanese)	Tetsu-to-Hagane	102 (2016), 356-364.	Multiscale Validation Brittle fracture Crack arrest
35	Kazuki Shibanuma* Yuki Yamamoto Fuminori Yanagimoto Katsuyuki Suzuki Shuji Aihara Hiroyuki Shirahata	Multiscale model synthesis to clarify the relationship between microstructures of steel and macroscopic brittle crack arrest behavior – Part I: Model presentation (in Japanese)	Tetsu-to-Hagane	102 (2016), 347-355.	Multiscale Validation Brittle fracture Crack arrest
33	Itsuki Kawata* Takashi Hiraide Kazuki Shibanuma Tomoya Kawabata Shuji Aihara	Fracture toughness prediction model for low-carbon bainite steels containing inter-lath martensite (in Japanese)	Tetsu-to-Hagane	102 (2016), 320-329.	Multiscale Validation Brittle fracture Fracture criterion
32	Yuki Yamamoto Kazuki Shibanuma* Fuminori Yanagimoto Katsuyuki Suzuki Shuji Aihara Hiroyuki Shirahata	Multiscale model synthesis to clarify the relationship between microstructures of steel and macroscopic brittle crack arrest behavior – Part II: Application to crack arrest test	ISIJ International	56 (2016), 350-358.	Multiscale Validation Brittle fracture Crack arrest
31	Kazuki Shibanuma* Yuki Yamamoto Fuminori Yanagimoto Katsuyuki Suzuki Shuji Aihara Hiroyuki Shirahata	Multiscale model synthesis to clarify the relationship between microstructures of steel and macroscopic brittle crack arrest behavior – Part I: Model presentation	ISIJ International	56 (2016), 341-349.	Multiscale Validation Brittle fracture Crack arrest
30	Kazuki Shibanuma* Shuji Aihara Katsuyuki Suzuki	Prediction model on cleavage fracture initiation in steels having ferrite-cementite microstructures – Part II: Model validation and discussions	Engineering Fracture Mechanics	151 (2016), 181-202.	Multiscale Validation Brittle fracture Fracture criterion
29	Kazuki Shibanuma* Shuji Aihara Katsuyuki Suzuki	Prediction model on cleavage fracture initiation in steels having ferrite-cementite microstructures – Part I: Model presentation	Engineering Fracture Mechanics	151 (2016), 161-180.	Multiscale Validation Brittle fracture Fracture criterion
26	Takashi Hiraide* Kazuki Shibanuma Shuji Aihara	Development of numerical model to predict cleavage fracture toughness of ferrite-pearlite steels (in Japanese)	Tetsu-to-Hagane	101 (2015), 384-393.	Multiscale Validation Brittle fracture Fracture criterion
18	Kazuki Shibanuma* Shuji Aihara Motoyuki Matsubara Hiroyuki Shirahata Tsunehisa Handa	Numerical simulation of fracture toughness testing by prediction model of cleavage fracture toughness (in Japanese)	Tetsu-to-Hagane	99 (2013), 50-59.	Multiscale Validation Brittle fracture Fracture criterion
17	Kazuki Shibanuma* Shuji Aihara Momoyuki Matsubara Hiroyuki Shirahata Tsunehisa Handa	Development of numerical model to predict cleavage fracture toughness of ferrite steel (in Japanese)	Tetsu-to-Hagane	99 (2013), 40-49.	Multiscale Validation Brittle fracture Fracture criterion