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Ecole Nationale des Ponts et Chaussées (ENPC) | Champs sur Marne, le de France | France | 2 days ago
? No Offer Description Scientific overview: This PhD thesis aims at studying the impacts of climate change-induced permafrost thaw in the Arctic, by using advanced thermo-hydro-mechanical (THM) modelling
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. Their molecular behavior has profound effects on soil hydraulic properties and biome stability. However, despite advances in continuum modeling of soil and plant-water systems, the molecular-scale mechanisms
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planets from the core to the most superficial fluid envelopes, through observation, experimentation and modelling. The research aeras are structured through 4 main unifying themes: Interiors of the Earth
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Association, Tenured/Tenure-Track, Full Time, Faculty - Engineering California State University, Fresno Lyles College of Engineering Department of Construction Management and Architectural Studies http
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, load modelling, soil–structure interaction, and relevant degradation and failure mechanisms over extended service periods. Within the scope of the project, a small-scale prototype will be tested in AAU
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, SPSS, AMOS, MPlus, R and structural equation modeling. Physical Demands and Work Environment: Candidate will work onsite as needed and remotely depending on tasks and needs. Special Conditions: Hired
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situ vibration measurements with advanced numerical simulations. Deep underground structures are strongly influenced by complex dynamic soil–structure interactions. Vibration-based monitoring captures
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buckling, rail fracture, and failure of track structure due to moisture sorption using advanced finite element methods. Also, must be competent to advise Ph.D. graduate students on the nonlinear
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on advanced internal combustion engines, with an emphasis on turbulent-jet ignition systems and structural-mechanics modeling of cylinder-kit components. The ideal candidate will possess a strong background in
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comprising computational biologists, bioengineers, and immunologists. The candidate will have access to advanced platforms for single-cell and spatial omics, 3D tissue modeling, bioreactors, and in vivo models