Sort by
Refine Your Search
-
a global leader in the fabrication of next generation nuclear fuels, high temperature ceramics, and radioisotope sorbents. This position would support the fabrication of ceramic and metallic coatings
-
conditions to produce high performance material and relate the material performance to microstructure use advanced characterization techniques. Work with team members to develop new research directions and
-
at Oak Ridge National Laboratory (ORNL). As part of our team, you will implement and maintain high-reliability electronic safety interlock systems for personnel protection from unique facility hazards
-
quality assurance standards and ITIL practices while aligning with project management guidelines. Contribute to the development of ORNL’s AI/ML tools, leveraging high-performance computing resources and AI
-
to the following: Assist with the evaluation and improvement of electrical systems to enhance performance, reliability, and address obsolescence issues. Specify, develop, and procure subsystems and components
-
Requisition Id 14781 Overview: The Nuclear and Radiological Protection Division (NRPD) at the Oak Ridge National Laboratory (ORNL) seeks a Radiobioassay Program Technical Specialist
-
changes when warranted. Perform high-quality reactor modeling, simulation, and thermal-hydraulic (T-H) analyses to support the HFIR safety basis, operational issues, and long-term upgrade projects. Perform
-
to the Communications and Community Engagement Directorate (CCED). Responsibilities: Craft clear, compelling narratives around emerging technologies (artificial intelligence, machine learning, high performance computing
-
://www.ornl.gov/facility/mdf ) and the Carbon Fiber Technology Facility (https://www.ornl.gov/facility/cftf ) – as well as signature user facilities in high performance computing, neutron sciences, and other areas
-
performance of fusion high heat flux components. Use range of material characterization techniques to complement techniques in high heat flux testing. Develop mechanistic understanding and models for materials