312 structural-engineering-"https:"-"https:"-"https:"-"UCL"-"UCL" positions at Oak Ridge National Laboratory
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
creating solutions to help sustain the Earth’s natural resources. Our scientists conduct research, develop technology, and perform analyses to understand and assess responses of environmental systems
-
reside in the Materials Joining Group in the Materials Analysis and Interface Science Section, Materials Science and Technology Division, Physical Sciences Directorate, at Oak Ridge National Laboratory
-
. This position resides in the Neutron & X-Ray Scattering, & Thermophysics group in the Materials Analysis and Interface Science Section, Materials Science and Technology Division, Physical Sciences Directorate
-
. Conducts market research for potential sources of services or supply. Determines appropriate contract type and the structure of solicitations and subcontracts for services, equipment, and/or material
-
Requisition Id 16127 Overview: We are seeking a Postdoctoral Research Associate who will develop and apply electronic structure theory approaches to examine the fundamental properties of a range
-
distribution, logistics, environmental safety & health, strategic planning, construction, engineering, emergency management, and security. Major Duties/Responsibilities: Serve as the functional system
-
funded by the U.S. Department of Energy (DOE) Office of Basic Energy Sciences (BES) in the Materials Sciences and Technology Division (MSTD). The successful candidate will be expected to work effectively
-
infrastructure of the Energy Science and Technology Directorate (ESTD). This position resides in ORNL’s Digital Media Team within the Communications and Community Engagement Directorate and collaborates closely
-
, engineering or equivalent. Project Management Professional (PMP) certification. Experience managing projects for construction of facilities over the entire lifecycle. Experience with risk management, developing
-
the functional properties of novel ferroic material systems and correlate their nanoscale ferroelectric, ferroelastic, optical, and electrical responses with structure and environment, with relevance