Présentation
Air Liquide is a world leader in gases, technologies and services for industry and health. Present in 60 countries with 66 300 employees, the Group serves more than 4 million customers and patients. Oxygen, nitrogen and hydrogen are small molecules essential to life, matter and energy. They embody Air Liquide's scientific territory and have been at the heart of the Group's business since its creation in 1902.Air Liquide places diversity at the heart of its activities and is committed in particular to promoting professional equality and the employment of workers with disabilities.
The Paris Innovation Campus (78 - Les Loges en Josas) is Air Liquide's largest R&D center.
It develops innovative solutions for all of the Group's activities. More than 250 researchers work in 48 laboratories equipped with state-of-the-art equipment and experimental platforms, enabling them to explore numerous research.
Reducing CO2 emissions of the most carbon-intensive industries, developing sustainable transport. When produced from renewable resources, hydrogen can tackle the carbon emissions of industry and intensive transport, which are responsible for 45% of the planet's CO2 emissions. Decarbonized hydrogen could thus play a decisive role in the fight against climate change.
Air Liquide innovates in hydrogen transportation by using new generation tanks made of composite materials. Inspection & maintenance of such tanks are a key point for the supply-chain safety. New methods of monitoring may bring efficiency in ensuring the structural health of hydrogen tanks.
Quelle sera votre contribution et comment vous épanouir dans ce poste ?
The integration of piezoelectric transducers into hydrogen storage structures is a key enabler for advancing hydrogen as a sustainable energy carrier in transportation. Embedded transducers form the foundation of mecaplastronic approaches, providing an effective means to monitor in-situ the manufacturing quality and to ensure mechanical reliability of the vessels throughout their service life. This internship project aims to establish a structured methodology for the selection and optimization of the process-material-transducer triad, with the objective of ensuring both the mechanical performance and the in-situ monitoring capabilities of hydrogen composite pressure vessels. The influence of processing parameters on the mechanical properties of transducers-instrumented composites will be investigated across multiple scales under extreme mechanical loading conditions. Particular attention will be given to interlaminar damage mechanisms, studied through the Laser Shock technique, which allows precise localization of inter-ply cracking, detailed analysis of crack initiation and propagation, and assessment of their impact on overall structural performance. The study will also extend to an in-depth evaluation of hydrogen tank composite materials, examining their behavior under quasi-static, high-rate dynamic, and fatigue loading conditions. A combined experimental and numerical approach will be employed to better understand performance in critical areas, with a special focus on interlaminar failure. The outcomes of this work will provide a solid foundation for developing next-generation design tools for composite hydrogen tanks subjected to complex loadings.
References
- M. Rébillat, N. Mechbal, “Damage localization in geometrically complex aeronautic structures using canonical polyadic decomposition of Lamb wave difference signal tensors” Structural Health Monitoring 19 (1) , 305- 321.
- M. Shirinbayan, I. Feki, S. Nouira, R. TieBi, JB. Maeso, C. Thomas, J. Fitoussi, "Multi‐scale damage analysis of filament‐wound carbon fiber‐reinforced epoxy composites for hydrogen storage tanks under high strain rates, " Polymer Composites, 2024.
Etes-vous LA personne faite pour ce poste ?
Les différentes compétences recherchées :
- Master II en lien avec la mécanique et/ou l’instrumentation et la physique appliquée
- La/le candidat(e) doit présenter un bon niveau scientifique pour la compréhension des phénomènes physiques
- Elle/Il doit avoir un goût pour l’expérimentation et être capable de manipuler capteurs, actionneurs, connectique, acquisition de données et traitement du signal
- Elle/Il doit être motivé(e) pour réaliser les différents types d'essais de caractérisation des matériaux
- Un bon niveau de connaissances dans le domaine de la mécanique est apprécié
- Expérience en caractérisation des matériaux
Additional Information
Air Liquide has been awarded the Happy Trainees label.
The internship will be carried out at Campus Innovation Paris, Air Liquide's R&D center in France located in Loges-en-Josas (1, Chemin de la Porte des Loges) and PIMM Laboratory (ENSAM Paris)
- Desired start date: fin 2025
- Duration of the internship : 6 months
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Nos différences font notre performance
Chez Air Liquide, nous nous engageons à créer un environnement de travail collaboratif et inclusif qui reflète la diversité de nos collaborateurs, de nos clients, des patients et de nos parties prenantes ainsi que des cultures à travers le monde.
Nous accueillons et considérons les candidatures de tous les candidats qualifiés, quel que soit leur parcours. Nous sommes convaincus qu'une organisation diversifiée permet à nos collaborateurs de révéler leur talent, à la fois individuellement et collectivement, et qu'elle contribue à renforcer notre capacité d'innovation en faisant vivre nos fondamentaux, en agissant pour le succès/la réussite du Groupe et en créant un environnement engageant, dans un monde en mutation.