Contract signing and incorporation dates are indicative and have yet to be defined.
Objectives
Perform experiments on bone tissues at micro and macro scales, learn to use a micro-CT scanner and apply a digital image correlation (DIC) system for the measurements of displacements and strains, formulate a failure initiation criterion for trabecular bone, and verify and validate it by application of a high order Finite Element Analysis (FEA).
Benefits
A full-time fixed-term contract is offered. Marie Curie ITNs provide competitive financial support to the ESR including: a competitive monthly living and mobility allowance and salary, coverage of the expenses related to the participation of the ESR in research and training activities (contribution to research-related costs, meetings, conference attendance, training actions, etc.). The recruited researchers will have a regular contract with the same rights and obligations as any other staff member of the institution.
Eligibility criteria
Applicants must at the time of recruitment:
Selection process
Applicants are evaluated by a selection committee on the basis of past academic performance (grades) and background, scientific relevance and aptitude to research, and any other additional pertinent data submitted in the application (such as scientific publications, if any).
The candidates that pass the initial assessment of the applications will be invited for an interview with the selection committee, either in person at the campus, or via standard internet videoconference. Equal opportunities are ensured to all candidates throughout the evaluation process.
EURAXESS offer ID: 492658
Offer requirements
Skills / Qualifications
Specific Requirements
Disclaimer: The responsibility for the jobs published on this website, including the job description, lies entirely with the publishing institutions. The application is handled uniquely by the employer, who is also fully responsible for the recruitment and selection processes.
ESR project | Host Institution | Application status | Expected start date | Details |
|---|---|---|---|---|
IRP/ESR 1: Total energy minimization with stress conditions for mixed mode fracture in anisotropic heterogeneous materials and structures | Universidad de Sevilla (Spain) | Closed | 01/11/2020 | |
IRP/ESR 2: Toughening composites by micro and meso structural optimization | Universidad de Sevilla (Spain) | Closed | 01/11/2020 | |
IRP/ESR 3: Fracture analysis of advanced layered ceramics | Sorbonne Université (France) | Closed | 01/11/2020 | |
IRP/ESR 4: Fracture of LFRP ultra-thin ply laminates in aeronautical applications | Universidade do Porto (Portugal) | Closed | 02/11/2020 | |
IRP/ESR 5: Nucleation and propagation of compressive cracks | Sorbonne Université (France) | Closed | 01/11/2020 | |
IRP/ESR 6: Multiscale modeling of fracture processes in injection molded SFRPs | Robert Bosch GmbH (Germany) | Closed | 01/10/2021 | |
IRP/ESR 7: Debonding of the reinforcement in LFRP externally strengthened curved beams | Politecnico di Torino (Italy) | Closed | 02/11/2020 | |
IRP/ESR 8: Fracture in biological anisotropic hard tissues (human bones) | Tel-Aviv University (Israel) | Closed | 01/11/2020 | |
IRP/ESR 9: Multi-field and multi-scale modeling of fracture for renewable energy applications | IMT School for Advanced Studies Lucca (Italy) | Closed | 02/11/2020 | |
IRP/ESR 10: PF modeling of fracture in the human femur | Eidgenoessische Technische Hochschule Zürich (Switzerland) | Closed | 01/11/2020 | |
IRP/ESR 11: Analysis of the failure mechanisms associated to the unfolding failure in CFRP profiles | Fundación Investigación, Desarrollo y Aplicación de Materiales Compuestos (Spain) | Closed | 01/11/2020 | |
IRP/ESR 12: Fracture in fibre-reinforced thermoplastics (FRTPs) across the scales | Universidade do Porto (Portugal) | Closed | 02/11/2020 | |
IRP/ESR 13: Phase Field and Finite Fracture Mechanics for dynamic crack propagation and delamination in brittle materials and composites | Politecnico di Torino (Italy) | Closed | 02/11/2020 |
Some Upcoming Events
Funded by the European Commission under a Marie Skłodowska-Curie Actions
Grant Agreement n° 861061
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