An industrial project, funded by Transvalor for a duration of three years, will commence in early October 2026 (Phd_2026_MORCAST_En.pdf). The project, entitled Model Order Reduction for Real-Time Digital Twins of Continuous Casting (MORCAST), will be supervised by Dr. Yancheng Zhang and Prof. David Ryckelynck at CEMEF, MINES Paris - PSL, France.
The research will take place at CEMEF, MINES Paris – PSL, France.
Application Deadline: 2026-April-30
The overall objective of the FAST-AM project (Post-doc_2026_Fast_AM_En.pdf) is to accelerate the numerical modeling of additive manufacturing processes by developing advanced model order reduction techniques and applying them to the design of complex industrial components.
Application Deadline: 2026-April-26
Link: https://www.kth.se/lediga-jobb/922588?l=en
Do you have a background in nonlinear continuum mechanics, constitutive modeling, soft tissue modelling or finite element analysis and a passion for advancing the understanding of brain injury? Then this could be a position for you. We are looking for an ambitious, collaborative and structured person to join our team to improve the brain material modelling!
In this role, you will take a leading position in advancing the material modelling of brain tissue. You will work within an interdisciplinary, international, collaborative, and supportive work environment. You will be an integral part of the growing division of Neuronic Engineering with the mission to bridge engineering and medicine to improve the prevention, diagnosis, and treatment of injuries to the human nervous system. You will work closely with Prof. Svein Kleiven, Assist. Prof. Zhou Zhou, and Assoc. Prof. Xiaogai Li at the Neuronic division, and will also collaborate with other research groups at KTH, including Prof. Christian Gasser, Lisa Prahl Wittberg, and Rodrigo Moreno. This opportunity is ideal for those seeking to advance their research career in engineering science, computational modelling, and brain health at a leading global institution.
Looking for PhD students in computational mechanics
https://sites.google.com/iitj.ac.in/sanhita-das
send email to sanhitadas [at] iitj.ac.in (sanhitadas[at]iitj[dot]ac[dot]in), with CV
Symposium Overview of S86 Mechanics of Energy Materials and Structures
Dear all,
A postdoctoral position of 12 months will probably open on the modeling of AM process using crystal plasticity models.
Experience on developping and implementing crystal plasticity models in finite element codes is required. Only candidates who have experience on CP will be selected for the following steps of the enrolment process.
To apply to this offer, thanks for sending the required documents:
Our latest paper, “Mixed-Mode Traction–Separation Laws for Crystalline UHMWPE Interphases Derived from Molecular Dynamics" is now freely accessible for the next 50 days from this link: https://authors.elsevier.com/a/1moVO4kE0iQ8Y
A new PhD position is available at Tribology and Surface Mechanics lab for Fall 2026 (Position #R04).
Candidates with strong mechanical engineering background on both experimental and analytical works are encouraged to apply. In particular, experience on metal alloys, coatings, surface engineering and mechanics, contact fatigue, indentation/scratch, advanced microscopy, creep, and/or finite element analysis is a plus.
Master degree, publications, and previous experience in surface mechanics is also plus, but not required.
Mark your calendar
We would like to invite you to attend an upcoming presentation:
"AI-Empowered CAE: Real-Time Engineering Analysis for Rapid Prototyping and High-Fidelity Simulation"
The talk will be given by Prof. Wing Kam Liu from Northwestern University as part of the Oak Ridge National Laboratory (ORNL) Computational Mechanics Seminar series.
The seminar will be held March 26, 2026, 2-3PM EST.
We are looking for a PostDoc at Leuphana University Lüneburg in my research team, within the German Research Foundation (DFG) funded research project “Laser Shock Propagation Investigation with high-Resolution in Time and Space” . The research project focuses on wave propagation within textured materials, for which numerical methods of crystal plasticity will be used.
