Sort by
Refine Your Search
-
-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
-
mechanisms, micro- and nanofabrication techniques, as well as, more generally, new applications of magnetics-based nanotechnology to biomedicine. Depending on chosen research direction, there may be
-
RAP opportunity at National Institute of Standards and Technology NIST Applied Mathematics of Soft, Fluid, and Active Matter Location Information Technology Laboratory, Applied and Computational
-
301.975.2461 Description Our goal is to develop and apply new computational (molecular simulation) and theoretical (statistical mechanics and thermodynamics) methods to study complex fluids, with an emphasis
-
standards and particularly to full classes of materials. Techniques such as multi-scale computational modeling are needed to distill the current knowledge of hydrogen embrittlement mechanisms, from
-
; Electron microscopy; X-ray diffraction; X-ray computed tomography; Mechanical properties; Fatigue; Fracture; Modeling; Atom probe; Microstructure; Processing; Eligibility Citizenship: Open to U.S. citizens
-
characterize complex fluids and their interaction with other matters. However, measurements require interpretation that is aided by computational fluid dynamics (CFD) and computational fluid particle dynamics
-
provide a rigorous framework for the validation of novel computational methods. Computational methods on multiple scales, ranging from continuum and empirical molecular mechanics models to first-principles
-
RAP opportunity at National Institute of Standards and Technology NIST Improving Control of Building Mechanical Services Using Embedded Intelligence and Sensors Location Engineering Laboratory
-
Simulation; Computational Chemistry; Colloidal Self-assembly; Material Science; Statistical Mechanics; Inverse Design Citizenship: Open to U.S. citizens