Sort by
Refine Your Search
-
Listed
-
Country
-
Employer
- University of Sheffield
- NIST
- California Institute of Technology
- ;
- Oak Ridge National Laboratory
- Pennsylvania State University
- University of Wisconsin-Madison
- ETH Zurich
- Fraunhofer-Gesellschaft
- Princeton University
- University of Dayton
- University of Texas at Austin
- Brookhaven Lab
- Singapore Institute of Technology
- Drexel University
- Duke University
- Loughborough University
- TTI
- The Ohio State University
- University of Glasgow
- University of New South Wales
- University of North Carolina System
- University of Toronto
- University of Vienna
- ; University of Leeds
- American University in Cairo
- Aston University
- Auburn University
- Brookhaven National Laboratory
- CEA
- CSIRO
- California State University San Marcos
- Carnegie Mellon University
- Cedars Sinai Medical Center
- Cedars-Sinai Medical Center
- Empa
- Glyndwr University
- Idaho State University
- Institut Pasteur
- King Abdullah University of Science and Technology
- Lansing Community College
- Lawrence Berkeley National Laboratory
- Linnaeus University
- MACQUARIE UNIVERSITY - SYDNEY AUSTRALIA
- Macquarie University
- McGill University
- Medical College of Wisconsin
- NEW YORK UNIVERSITY ABU DHABI
- Nature Careers
- Technical University of Munich
- The University of Arizona
- The University of Queensland
- The University of Tampa
- Tufts University
- UNIVERSITY OF VIENNA
- Umeå University
- University of Alaska
- University of Bath
- University of California
- University of California Los Angeles
- University of Miami
- University of Oxford
- University of Southern Denmark
- University of Texas at Arlington
- Youngstown State University
- 55 more »
- « less
-
Field
-
-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
-
advanced mechanical design, component specification, tolerancing, drawing, procurement, and fabrication oversight of state-of-the-art scientific instrumentation. Conduct detailed finite element and thermal
-
design, component specification, tolerancing, drawing, procurement, and fabrication oversight of state-of-the-art scientific instrumentation. Conduct detailed finite element and thermal performance
-
. Experience in industry, a research environment, a Ph.D. or M.S. degree program, or a combination of these will be considered. General knowledge of Finite Element Analysis using ANSYS, COMSOL, or equivalent
-
complex permittivity and permeability characterization with on-wafer techniques, materials modeling (including finite element simulations, and theory), and the development of mm-wave and microwave
-
of both mechanical systems and components. The emphasis is on designing for the complete product life-cycle. Topics in parametric design and design optimization using Finite Element Analysis (FEA), Computer
-
withpractical finite element analysis using ANSYS Workbench or Comsol, and pipe stress analysis programs such as CAESAR-II, CAEPIPE, AUTOPIPE, WINPIPE, ROHR2. Experience creating and checking detailed mechanical
-
. Experience related to fluid, cryogen, pressure, flow rate, and gas sensors and instrumentation. Computer-aided design (CAD) experience and demonstrated proficiency (SolidWorks™ preferred). Finite-element
-
synchrotron X-ray fluorescence false colour image of a CAI (red colour) within the carbonaceous chondrite Vigarano. Heavy metal insights into the formation of planet Earth Supervisors: Dr Luke Daly , Dr Joshua
-
thermomechanical finite element modeling, CALPHAD-based thermodynamics, and crystal plasticity and to both powder-scale and atomic-scale simulations. Emphasis will be on integration of model predictions with