Research field (2):
Structural and functional materials
, Metallic materials
Research keywords (5):
Machine learning
, Finite Element Method
, Crystal plasticity
, Mechanical properties
, Metallurgy
Research theme for competitive and other funds (4):
2022 - 2024 Elucidation of dwell-fatigue behavior in Ti-6Al-4V alloys by AE monitoring and Crystal plasticity simulations
2018 - 2023 Establishment of the Inverse Design MI Basis for Advanced Structural Materials and Processes
2018 - 2023 Development of materials integration (MI) utilization technology for performance and life of magnesium materials
2014 - 2019 Development of Materials Integration System
Papers (54):
Wujun Yin, Fabien Briffod, Jiyun Kang, Haoyu Hu, Kazuhiko Yamazaki, Takayuki Shiraiwa, Manabu Enoki. Origin of strain localization near prior austenite grain boundary in martensitic steel: Role of chemical and dislocation structures. Scripta Materialia. 2026. 276. 117201
Fabien Briffod, Takayuki Shiraiwa, Kyohei Hayakawa, Kenta Suzuki, Takanori Karato, Manabu Enoki. Fatigue crack initiation in a directionally solidified Ni-based superalloy: Effect of non-metallic inclusions. Materials Science and Engineering: A. 2026. 949. 149475-149475
Rahul Sahay, Ihor Radchenko, Pavithra Ananthasubramanian, Christian Harito, Fabien Briffod, Koki Yasuda, Takayuki Shiraiwa, Mark Jhon, Rachel Speaks, Derrick Speaks, et al. Interface Rotation in Accumulative Rolling Bonding (ARB) Cu/Nb Nanolaminates Under Constrained and Unconstrained Loading Conditions as Revealed by In Situ Micromechanical Testing. Nanomaterials. 2025. 15. 19. 1528-1528
Hanqing Liu, Masanori Kitamura, Fabien Briffod, Takayuki Shiraiwa. A cellular automata-based crystal plasticity analysis of slip activity in additive manufactured Ti-6Al-4V during dwell fatigue. Journal of Alloys and Compounds. 2025. 1041. 183867-183867
白岩隆行, 加藤翔也, BRIFFOD Fabien, 榎学. Prediction of structure-property relationship and inverse analysis of DP steels by crystal plasticity finite element analysis. 材料とプロセス(CD-ROM). 2021. 34. 1
Anti-roll system for wheel of car, has hydraulic circuits comprising compression chambers with elastic unit, which adjusts under pressure of liquid, where each anti-roll cylinder comprises coaxially placed hydraulic damper
DEVICE FOR PARTIALLY DEACTIVATING THE CYLINDERS OF AN INTERNAL COMBUSTION ENGINE
Lectures and oral presentations (3):
AE Experiments for Determination of In-plane Mechanical Properties of Ti Mesh Plates
(The Japan Institute of Metals and Materials Spring Meeting 2014)
Numerical Simulation of Static and Fatigue Strength of Mesh Plate for Mandibular Implant
(The Japan Institute of Metals and Materials Fall Meeting 2013)
Mechanical Behavior of Pure Ti Mesh Plate for Mandibular Implant
(The Japan Institute of Metals and Materials Spring Meeting 2013)
Education (3):
2014 - 2017 The University of Tokyo Department of Materials Engineering PhD
2012 - 2014 The University of Tokyo Department of Materials Engineering Master
2009 - 2011 Ecole des Ponts ParisTech Department of Mechanical Engineering and Materials Science Engineering diploma
Work history (3):
2020/04 - 現在 The University of Tokyo The Faculty of Engineering Department of Materials Engineering Assistant professor
2017/10 - 現在 The University of Tokyo Department of Materials Engineering Project Researcher
2011/07 - 2012/06 PSA Peugeot Citroen SA Trainee engineer
Awards (5):
2020/09 - The Japan Institute of Metals and Materials The Young Scientist Best Paper Award In-situ Observation and Acoustic Emission Monitoring of the Initiation-to-Propagation Transition of Stress Corrosion Cracking in SUS420J2 Stainless Steel
2020/09 - The Japan Institute of Metals and Materials The Best Paper Award Modeling and Crystal Plasticity Simulations of Lath Martensitic Steel under Fatigue Loading
2018/12 - LPSO 2018 Excellent Poster Award
2016/09 - The Japan Institute of Metals and Materials Best Poster Award
