Sort by
Refine Your Search
-
Listed
-
Country
-
Employer
- NIST
- University of Sheffield
- Oak Ridge National Laboratory
- University of Texas at Austin
- California Institute of Technology
- University of Bristol
- Chalmers University of Technology
- ETH Zurich
- Nature Careers
- Pennsylvania State University
- University of Dayton
- ;
- AGH University of Krakow
- Aston University
- Brookhaven National Laboratory
- CEA
- CNRS
- Carnegie Mellon University
- Center for Devices and Radiological Health (CDRH)
- Diamond Light Source;
- Drexel University
- Faculty of Sciences of the University of Porto
- Fraunhofer-Gesellschaft
- George Mason University
- Harper Adams University
- Heidelberg University
- Imperial College London;
- Institut Pasteur
- KOMAG Institute of Mining Technology
- KTH
- Nanyang Technological University
- Purdue University
- Rochester Institute of Technology
- Rutgers University
- Sheffield Hallam University
- The University of Arizona
- Ulster University
- University of Aveiro
- University of Bristol;
- University of British Columbia
- University of Greenwich
- University of Lorraine & CNRS
- University of Malta
- University of Michigan
- University of Nevada, Las Vegas
- University of Sheffield;
- University of Texas at Arlington
- University of Tübingen
- University of Warwick;
- Università di Pisa - Centro di Ricerca
- Université de Lille
- 41 more »
- « less
-
Field
-
presents a challenge, especially in a highly non-linear case. The aim of this project is to advance further one of the methods to handle problems with propagating interfaces – the cut-finite-element method
-
. This postdoctoral position focuses on developing high-fidelity Finite Element Method (FEM) simulations to characterize mechanical properties and deformation behavior in advanced packaging applications. It involves
-
numerical modelling computer aided techniques such as Finite Element Analysis – ANSYS; selection and application of wear-resistant materials including the implementation of heat treatment processes to improve
-
computational modelling. The project will focus on the development of advanced numerical models (e.g. finite element method). The aim is to enable rapid and reliable prediction of material failure in complex
-
mechanics and materials mechanics - Strong interest in multiscale and multiphysics modeling - Knowledge of numerical methods and finite element analysis - Interest in hybrid physics–data approaches and
-
degree in biomedical engineering, mechanical engineering or related relevant field A demonstrated and substantial experience with computational simulation methods, i.e. finite element analysis English
-
Location:South Kensington campus About the role: We are seeking a highly motivated researcher with a background in computational structural or mechanical engineering and finite element modelling
-
computational modeling, including numerical analysis, finite element methods, and software engineering Experience in software development in the C++ and Python languages The ability to work flexible hours and
-
of Nonductile Reinforced Concrete Frames with Masonry Infill Walls: I. Development of Strut Model Enhanced by Finite Element Models”, Earthquake Spectra, (2015), 32 (2), 795-818. Sattar, Siamak and Abbie B. Liel
-
-mechanical processing. Some of these modeling tools include density functional theory (DFT), CALPHAD-based models, phase-field models, and finite-element models (FEM) to predict as-built microsegregation