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个人简介
Professor Lubineau’s research simultaneously involves computational, modeling and experimental developments to tackle complex problems related to composite engineering and more generally to heterogeneous materials.
Lubineau’s research is focused on four key areas:
Integrity of composite materials and structures. Isotropic and anisotropic damage theories; fracture mechanics; homogenization techniques bridging micro-mechanical models to meso/macro-scale models; multi-scale modeling; and damage mechanisms in nano-reinforced multiscale composites.
Durability of composite materials and structures; modeling of aging for polymer-based CFRPs under various environments (moisture, temperature, radiation, oxidation, mechanical fatigue); aging of steel pipes in sour environments; and the development of multiphysics-related models (experimental, modeling and computational work).
Inverse problems for the identification of constitutive parameters; digital image correlation-based identification techniques; identification techniques for interfaces in joints and laminates; and identification techniques based on 2-D (optical pictures) and 3-D (tomography) image correlation.
Multiscale coupling techniques; coupling between non-local continuum and local continuum models; and upscaling strategies for handling localized effects in large-scale simulations.
Lubineau’s research is focused on four key areas:
Integrity of composite materials and structures. Isotropic and anisotropic damage theories; fracture mechanics; homogenization techniques bridging micro-mechanical models to meso/macro-scale models; multi-scale modeling; and damage mechanisms in nano-reinforced multiscale composites.
Durability of composite materials and structures; modeling of aging for polymer-based CFRPs under various environments (moisture, temperature, radiation, oxidation, mechanical fatigue); aging of steel pipes in sour environments; and the development of multiphysics-related models (experimental, modeling and computational work).
Inverse problems for the identification of constitutive parameters; digital image correlation-based identification techniques; identification techniques for interfaces in joints and laminates; and identification techniques based on 2-D (optical pictures) and 3-D (tomography) image correlation.
Multiscale coupling techniques; coupling between non-local continuum and local continuum models; and upscaling strategies for handling localized effects in large-scale simulations.
研究兴趣
论文共 313 篇作者统计合作学者相似作者
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Samuel L. Zelinka,Samuel V. Glass, Eleanor Q. D. Lazarcik,Emil E. Thybring,Michael Altgen,Lauri Rautkari,Simon Curling,Jinzhen Cao, Yujiao Wang,Tina Künniger, Gustav Nyström,Christopher Hubert Dreimol,Ingo Burgert,Mohd Khairun Anwar Uyup,Tumirah Khadiran,Mark G. Roper,Darren P. Broom,Matthew Schwarzkopf,Arief Yudhanto, Mohammad Subah,Gilles Lubineau,Maria Fredriksson,Marcin Strojecki,Wiesław Olek,Jerzy Majka,Nanna Bjerregaard Pedersen,Daniel J. Burnett,Armando R. Garcia, Els Verdonck,Frieder Dreisbach, Louis Waguespack, Jennifer Schott,Luis G. Esteban,Alberto Garcia-Iruela,Thibaut Colinart,Romain Rémond,Brahim Mazian,Patrick Perre,Lukas Emmerich, Ling Li
Adsorption (2024)
JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS (2024)
VIRTUAL AND PHYSICAL PROTOTYPINGno. 1 (2024)
JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T (2024): 4384-4393
2024 IEEE INTERNATIONAL CONFERENCE ON FLEXIBLE AND PRINTABLE SENSORS AND SYSTEMS, FLEPS 2024 (2024)
Desalination (2024)
Yahya Kara,Gilles Lubineau
Composites Communicationspp.102042, (2024)
Composites Part A, Applied science and manufacturing (2024): 108090-108090
Daniel Corzo, Emily B. Alexandre, Yasir Alshareef, Fahad Bokhari,Yangyang Xin,Yongcao Zhang, Jürgen Kosel, Daniel Bryant,Gilles Lubineau,Derya Baran
Materials Today (2024)
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作者统计
#Papers: 312
#Citation: 8016
H-Index: 48
G-Index: 76
Sociability: 6
Diversity: 3
Activity: 247
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