A new PhD position in experimental soil mechanics is open at Charles University.

Starting date October 2020, topic: Evaluation of hydromechanical properties of bentonite subjected to thermal loading.

Further information on this position can be found at: https://stars-natur.cz/phd-positions/geology/evaluation-of-hydromechanical-properties-of-bentonite-subjected-to-thermal-loading?back=nibtu

The Geotechnical Engineering Group at the Department of Civil and Environmental Engineering, NTNU, has a vacancy for a 3-year PhD scholarship for research on thermo-mechanical study of geothermal energy pile foundations installed in soft clays subjected to freezing and thawing.

Further information on this position can be found at:
https://www.jobbnorge.no/en/available-jobs/job/180873/phd-position-in-thermo-mechanical-studies-of-geothermal-energy-pile-foundations

The Mechanics and Energy Laboratory (MEL) of Northwestern University is welcoming applications for a post-doctoral research position.

The MEL develops research activities addressing fundamental and applied problems centered on the mechanics of geomaterials and structural systems. The ultimate goal of these activities is to develop competence serving the achievement of efficient energy harvesting and storage applications, the development of resilient structures and infrastructures, the prevention or mitigation of natural hazards, and the establishment of built environments that can adapt their features to meet human activity needs.

The selected post-doctoral researcher will push the current knowledge boundaries about the multiphysical properties and behavior of geomaterials subjected to electrical current flows, by means of experimental laboratory investigations and coupled theoretical analyses, from the microscopic to the macroscopic scales.

Further information on this position can be found in the attached document.

Applications are welcome for a 2-year postdoc position to investigate the cyclic soil-monopile interaction using geotechnical centrifuge. The successful candidate will investigate the cyclic behaviour of small-scale monopile models in sandy soil, both dry and saturated, using two geotechnical centrifuge facilities at TU Delft and Deltares. The work will include design and implementation of advanced instrumentation for physical modelling studies. Test planning and data interpretation will be carried out in close collaboration with numerical modellers and industry experts in the framework of MIDAS (Monopile Improved Design through Advanced cyclic Soil modelling) project. Candidates should possess a PhD degree in Civil/Geotechnical Engineering or related areas, proven experience in geotechnical centrifuge testing, preferably including soil-structure interaction problems and cyclic loading, and excellent knowledge of soil mechanics and foundation engineering. Acquaintance with offshore wind geotechnics is also appreciated (but not mandatory). Full description of the position along with the details on how to apply can be found in the following link:
https://www.academictransfer.com/en/288650/post-doctoral-researcher-in-physical-modelling-of-cyclic-soil-monopile-interaction/apply/#apply

For more information about this vacancy please contact Dr. Amin Askarinejad: A.Askarinejad@tudelft.nl, or Dr. Federico Pisanò, F.Pisano@tudelft.nl.

The closing date for the applications is February 1^st, 2020.

Applications are welcome for a PhD position to investigate the consequences of climate change on soil behavior and soil-structure interactions through an experimental campaign involving both conventional and state-of-the-art laboratory- and model-scale testing, which is co-led by Dr. Melis Sutman and Prof. Gabriela Medero. The project is available to all students, whether home, EU or overseas. The successful candidate should possess at minimum a masters and undergraduate degree in civil engineering, geotechnical engineering, earth science or a similar field. Strong interest and experience on experimental soil mechanics is an essential requirement for this project. The PhD student will get full access to the state-of-the-art facilities of the Geotechnical and GeoMaterials Laboratory at Heriot-Watt University, which includes equipment for unsaturated soil testing (e.g. unsaturated triaxial, oedometer and direct shear apparatus, pressure cells, temperature & environmental chambers) as well as standard geotechnical testing.

Full description of the position along with the details on how to apply can be found in the following link: https://www.hw.ac.uk/schools/energy-geoscience-infrastructure-society/postgraduate-research/climate-change-consequences-on-soil-behaviour-and-soil.htm

Further enquiries on the vacancy can be directed to Dr. Melis Sutman: M.Sutman@hw.ac.uk

The closing date for the applications is February 2^nd, 2020.

Karlsruhe Institute of Technology (KIT) – The Research University in the Helmholtz Association creates and imparts knowledge for the society and the environment. It is our goal to make significant contributions to mastering the global challenges of humankind in the fields of energy, mobility, and information. For this, about 9,300 employees of KIT cooperate in a broad range of disciplines in research, academic education, and innovation.

Division IV – Natural and Built Environment, the KIT Department of Civil Engineering, Geo­ and Environmental Sciences invites applications for the position of

Professor (W3) of Soil Mechanics and Geotechnical Engineering

This position to be appointed at the earliest possible date and is associated with membership of the Board of Directors of the “Institute for Soil Mechanics and Rock Mechanics”.

Job Description: We are seeking to fill one or more research assistant positions (graduate students at the Ph.D. level) in the areas of computational geomechanics and geotechnical earthquake engineering.

Qualifications: The candidate must hold an M.Sc. degree in geotechnical engineering and must have solid knowledge in applied mechanics and continuum and/or discrete element modeling (computation and program development). Consideration will be given to candidates with a proven record of relevant academic background. The candidate must be able to work in a team since she/he will interact closely with several members of a multi-disciplinary research group. The ideal candidate would be skilled in some of the following areas:

• Finite element, finite difference, material point method or other numerical methods for solving boundary value problems in solid mechanics;
• Discrete element modeling of granular systems;
• Knowledge in mechanics and constitutive modeling of geomaterial;
• Proficiency in a programming language (C++, Fortran, Python) would be an asset; 
• Ability to write technical reports and to communicate effectively in professional and technical meetings.

Applications are welcome for a PhD position on combined non-destructive methods to monitor, quantify and image brittle deformation and fluid presence at depth in geomaterials. The PhD position is within IAPETUS2 Doctoral Training Partnership (DTP), funded and accredited by the Natural environment Research Council (NERC). The project is co-led by supervisors from both the British Geological Survey (BGS) and the Heriot-Watt University (HW).

The Division of Soil and Rock Mechanics at KTH Royal Institute of Technology in Stockholm, Sweden, has a vacant doctoral student position. The doctoral student will carry out research related to transition zones for high-speed railway by numerical methods and field measurements. The position targets the intermediate two-year Licentiate degree but the university will aim to secure the remaining funding to let the candidate continue to a PhD degree. More information is available on the KTH website: https://www.kth.se/en/om/work-at-kth/lediga-jobb/what:job/jobID:301436/where:4/

The Department of Architecture and Civil Engineering at Chalmers University of Technology in Gothenburg Sweden is offering a PhD position in Structural Mechanics. This is a salaried position with a minimum duration of four years. In this project, we will integrate data from neutron and X-ray tomography to quantify the internal mechanisms in the sample during the corrosion process. This will be complimented with nonlinear finite element analyses describing volume expansion, granular behaviour of rust, transport of rust through cracks, non-uniform corrosion, and frost. Ultimately, the project will provide the knowledge required on how the structural safety of older structures should be assessed following visual inspection.

For more information see: https://www.chalmers.se/en/about-chalmers/Working-at-Chalmers/Vacancies/Pages/default.aspx?rmpage=job&rmjob=8136&rmlang=UK