The goal of this project is to investigate the multi-scale behaviour of clay rock, going from microscopic to macroscopic scale. The research will be based on multi-scale
approach and numerical method allowing to model microstructure media in a double-scale framework (FEMxFEM). The PhD position is available at iMMC (UCL) in collaboration with the 3SR Laboratory (P. Bésuelle, CNRS, UGA). A postdoc position with a similar subject is also available.

Applications should be submitted by emailing a CV together with the academic grades (detail of marks) to the supervisor Benoît Pardoen.

More information in the attached document (updated version)

A position of a professor in Structural Engineering with focus on structural safety and reliability is opened at the Division of Structural Engineering, Faculty of Engineering LTH, Lund University, Sweden.
 
To apply or for more information: website link 

A call is open to award one research grant to develop research activities within the I&D Project CEN-DynaGEO – Coupled Experimental and Numerical Approaches Toward Reliable Dynamic Characterization of Geomaterials, PTDC/EAM-GTC/29923/2017, funded by the Portuguese Science and Technology Foundation (FCT). The recipient is expected to conduct research in the field of Geomechanics at the University of Minho, University of Lisbon and BarcelonaTech.

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This thesis deals with the constitutive modeling of low permeability partially saturated geomaterials, in the framework of enhanced poromechanics. Partial saturation means in this context that the porous network is occupied at least by two different fluid phases, having their own wetting properties. The classical poromechanical model, based on Biot’s theory, will be therefore generalized in order to account for stress/strain localization, within the solid phase, and fluid fingering, within the fluid phases. Strain localization will be treated making use of strain gradient theory and plasticity whilst partial saturation following a phase-field modeling approach to multi-phase fluid flow. To this aim, on the one hand, a fully coupled gradient constitutive law of the porous skeleton and the saturating (mixture of) fluid(s) will be assumed, which means that the free energy of the overall continuum will be a function not only of strain and mass concentrations of the fluid components, but also of their gradients. On the other hand, irreversible deformations of the solid skeleton will be modeled adopting a suitable plasticity model. This approach stems from previous results published by the
coordinator of the project [1-2] and can be partly retrieved in a line of research pursued by Collin and Kotronis, see e.g. [3-4], for what concerns the gradient approach to (un)saturated poromechanics.

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We seek a qualified and motivated individual with enthusiastic attitude towards high-quality research to work as a Postdoctoral Researcher at the department of Civil Engineering. The main research area is the laboratory testing of geotechnical engineering materials. Our speciality is the testing of soft, anisotropic clays as well as the testing of stabilized soils. We have much expertise on these areas, but we want to strengthen it by building a bigger research group, where you would be one of the key member. We are also applying for an additional financing to ensure long-term research. Besides laboratory testing, our group consists of specialists on numerical modelling and constitutive modelling of soils, which opens you the possibility to develop constitutive models based on your experimental data. The position is for a period of 2 years, with a mid-term review, and it should start around December 2018. The position is intended for full-time work.

More information in the website

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1. Assistant/ Associate professor in Geotechnical Engineering
2. Assistant/ Associate professor in Rock mechanics

Objectives

The main aim of this project is to develop a robust computational framework for investigating the hydro-chemo-mechanical aspect of concrete carbonation at meso-scale.

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1-year post-doctoral position to start in January 2019, on
“Multi-technique characterization of thin clay films during their 
creep”. The project is in partnership between Laboratoire Navier,
laboratory Phenix (Sorbonne Université) and Synchrotron SOLEIL. Applications are expected by 1 September 2018. See the attachment for more information.

A PhD position in modeling of submerged slopes is available at the Division of Geotechnical and Tunnel Engineering at the University of Innsbruck. Further information can be found at: https://www.uibk.ac.at/geotechnik/nathaz_phd_position.html