Sort by
Refine Your Search
-
Listed
-
Country
-
Employer
- Carnegie Mellon University
- Oak Ridge National Laboratory
- Stony Brook University
- CNRS
- Empa
- Nature Careers
- Texas A&M University
- University of Bristol
- University of Miami
- Aalborg Universitet
- Chalmers University of Technology
- Delft University of Technology (TU Delft)
- Heriot Watt University
- KTH Royal Institute of Technology
- Luxembourg Institute of Science and Technology
- NEW YORK UNIVERSITY ABU DHABI
- New York University
- Northeastern University
- Rutgers University
- SUNY Polytechnic Institute
- Technical University of Munich
- University of Houston
- University of Maryland, Baltimore
- University of New South Wales
- University of North Texas at Dallas
- University of Southern Denmark
- Virginia Tech
- 17 more »
- « less
-
Field
-
tasked with developing and implementing new efficient numerical methods for high-frequency wave propagation problems in the finite element open-source software FreeFEM developed at Laboratoire Jacques
-
mechanics, FEA, CFD, or equivalent field. Proficiency in one or multiple finite element analysis software (e.g., ABAQUS, LS-Dyna, ANSYS), and in computational fluid dynamic software (e.g., Fluent, CFX
-
to: i) lead the design and creation of an experimental setup to examine fluid-structure interactions between 3D-printed models of deep sea sponges and ii) lead the formulation and analysis of finite
-
(photolithography, metal evaporation, etching) Experience with packaging schemes such as flip-chip bonding, anisotropic conductive film bonding and wire bonding Finite element Method (FEM) simulations (MEMS, Electro
-
testing and computational simulations (e.g., finite element analysis, fluid-structure interaction). This work will contribute to improving our understanding of valve biomechanics, inform device design, and
-
., Multiphysics finite element analysis, Matlab, Labview etc.) cleanroom experience, and characterization of electronic devices are required. Further, knowledge of system level integration and haptics feedback in
-
, anisotropic conductive film bonding and wire bonding Finite element Method (FEM) simulations (MEMS, Electro-static and Quasi-static simulations) Discrete electronic design (Analog and digital design using COTS
-
codes, finite element or finite different methods, peridynamics, phase field models, multi-objective optimisation methods, CAD. Demonstrated ability to adapt to fast-changing project direction and learn
-
. Proficiency in CAD/CAM and finite-element modeling is required, alongside disciplined verification/validation practices and the ability to translate prototypes into reliable, user-ready systems. Demonstrated
-
characterization, mechanical testing, 3D microstructural analysis, finite element simulations, atomistic modeling, and thermal transport measurement techniques to advance mechanistic understanding and predictive