NSUF Article

Department of Energy Nuclear Science User Facilities Awards 29 Rapid Turnaround Experiment Proposals

Tuesday, June 8, 2021 - News Release, Calls and Awards

IDAHO FALLS -- The U.S. Department of Energy - Office of Nuclear Energy (DOE-NE) Nuclear Science User Facilities (NSUF) has selected 29 new Rapid Turnaround Experiment (RTE) projects, totaling approximately $1.14M. These project awards went to 13 principal investigators from universities, nine from national laboratories, four from industry, and three foreign universities.

The NSUF competitively selected these projects from a pool of high-quality RTE proposals submitted during the solicitation period. Each proposal was evaluated based on a variety of factors including technical approach, mission relevance, and scientific-technical merit.

The NSUF, managed by Idaho National Laboratory (INL), provides unparalleled opportunities for nuclear energy researchers. Through the RTE solicitation, a researcher can apply for no-cost access to NSUF’s capabilities located across the United States. These capabilities encompass irradiation, post-irradiation examination, beamline, and high-performance computing equipment and expertise necessary to advance the understanding of irradiation effects in nuclear fuels and materials in support of DOE-NE’s mission.

The NSUF is currently planning on opening another RTE call this fiscal year. Please stay tuned for more details.

Proposer Name

Institution

Proposal Title

NSUF Facilities

Aaron Craft

Idaho National Laboratory

Understanding Metallic Fuel Relocation Using Neutron Computed Tomography

Idaho National Laboratory - Materials and Fuels Complex (MFC)

Benjamin Dacus

Massachusetts Institute of Technology

Microstructural Evolution in Model & Real RPV steel due to Thermal Aging and Low-Dose Irradiation using Atom Probe Tomography

Center for Advanced Energy Studies - Microscopy and Characterization Suite (MaCS)

Burkan Isgor

Oregon State University

Irradiation of stainless steel claddings produced by additive manufacturing for in-core applications

University of Wisconsin - Ion Beam Laboratory

Calvin Parkin

University of Wisconsin

IVEM Investigation of Defect Evolution in FCC Compositionally Complex Alloys under Dual-beam Heavy-ion Irradiation

Argonne National Laboratory – Intermediate Voltage Electron Microscope Tandem Facility (IVEM)

Casey McKinney

University of Florida

Assessing the Radial Thermal Conductivity Change in FBR MOX Fuel

Idaho National Laboratory - Materials and Fuels Complex (MFC)

Charles Hirst

Massachusetts Institute of Technology

Verifying Wigner energy measurements by in-situ TEM annealing of neutron-irradiated Ti

Idaho National Laboratory - Materials and Fuels Complex (MFC)

Cody Dennett

Idaho National Laboratory

Defect generation and phase stability in single crystal mixed uranium-thorium actinide oxides

Center for Advanced Energy Studies - Microscopy and Characterization Suite (MaCS) and University of Michigan - Michigan Ion Beam Laboratory (MIBL)

Donna Guillen

Idaho National Laboratory

Microstructural Examination of Irradiation Effects on Metal Matrix Composite Neutron Absorber

Center for Advanced Energy Studies - Microscopy and Characterization Suite (MaCS)

Fabio Di Fonzo

Istituto Italiano di Tecnologia

Radiation-induced Crystallization in Alumina Coatings: Temperature and Yttria Doping Effect. A Completion Kinetic Study to Model Radiation Resistant Coatings for the Future Nuclear System.

Argonne National Laboratory – Intermediate Voltage Electron Microscope Tandem Facility (IVEM)

Fabiola Cappia

Idaho National Laboratory

Study of minor actinides redistribution and fission products in high burnup MOX using Electron Probe Micro Analysis (EPMA)

Idaho National Laboratory - Materials and Fuels Complex (MFC)

Francis Garner

Texas A&M University

The effects of stress on void superlattice formation during Cr+ self-ion-irradiation of chromium

Center for Advanced Energy Studies - Microscopy and Characterization Suite (MaCS) and Texas A&M University - Accelerator Laboratory

Ippei Maruyama

Nagoya University

Effect of neutron radiation on density and mechanical properties of concrete aggregates

Oak Ridge National Laboratory - Low Activation Materials Development and Analysis (LAMDA)

Jean Smith

Electric Power Research Institute

Mechanistic Insight Through TEM Characterization of Intergranular Irradiation-Assisted Stress Corrosion Crack Tips in As-Irradiated vs. Post-Irradiation Annealed Specimens

Idaho National Laboratory - Materials and Fuels Complex (MFC)

Kathleen Goetz

University of Tennessee-Knoxville

Imaging of Irradiation Effects in Tantalum Alloys for Fast-Spectrum Self-Powered Neutron Detectors

Oak Ridge National Laboratory - Low Activation Materials Development and Analysis (LAMDA)

Michael Miller

Southwest Research Institute

Computational Thermochemistry of Pathways Toward Synthesis of Uranium Nitride

Idaho National Laboratory - Materials and Fuels Complex (MFC)

Michael Moorehead

University of Wisconsin

Heavy Ion Irradiation and Characterization of Light-Refractory, BCC High-Entropy Alloys

University of Wisconsin - Ion Beam Laboratory

Mike Burke

Electric Power Research Institute

In-situ mechanical testing of neutron-irradiated 304SS exhibiting unusual deformation and fracture behavior with respect to temperature

University of California-Berkeley - Nuclear Materials Laboratory and Westinghouse Churchill Laboratory Services

Mukesh Bachhav

Idaho National Laboratory

Correlative TEM and APT approach to elucidate hydride morphology and behavior in ex-service pressure tube material

Idaho National Laboratory - Materials and Fuels Complex (MFC)

Nishant Garg

University of Illinois at Urbana-Champaign

Changes in mechanical and chemical-structural properties of gamma irradiated calcium silicate hydrates to an absorbed dose of 189 MGy with respect to pristine samples subjected to the same temperature history

Oak Ridge National Laboratory - Low Activation Materials Development and Analysis (LAMDA)

Pengyuan Xiu

University of Michigan

The sink strength and radiation parameter effects on microchemical evolution in dual-ion irradiated additively manufactured and wrought HT9

Center for Advanced Energy Studies - Microscopy and Characterization Suite (MaCS)

Przemyslaw Klups

University of Oxford

Comparison of Solute Cluster Formation and Evolution in Neutron-Irradiated ATR-2 to Thermally-Aged Low-Alloy Steels

Center for Advanced Energy Studies - Microscopy and Characterization Suite (MaCS)

Rajiv Mishra

University of North Texas

Ion Irradiation and Examination of Additive Friction Stir Manufactured 316 Stainless Steel Component

Center for Advanced Energy Studies - Microscopy and Characterization Suite (MaCS) and Texas A&M University - Accelerator Laboratory

Ramprashad Prabhakaran

Pacific Northwest National Laboratory

Microstructural characterization of neutron irradiated NF616 (Grade 92) as a function of doses and temperatures

Pacific Northwest National Laboratory - Materials Science and Technology Laboratory

Somayeh Pasebani

Oregon State University

Ion Irradiation and examination of 304 Stainless Steel and 304 ODS Steel Additively Manufactured via Selective Laser Melting

Center for Advanced Energy Studies - Microscopy and Characterization Suite (MaCS) and Texas A&M University - Accelerator Laboratory

Stephen Taller

Oak Ridge National Laboratory

The Role of Precipitate Coherency on Helium Trapping in Additively Manufactured Alloy 718

Oak Ridge National Laboratory - Low Activation Materials Development and Analysis (LAMDA) and University of Michigan - Michigan Ion Beam Laboratory (MIBL)

Troy Munro

Brigham Young University

Local thermal properties of fast reactor MOX fuels

Idaho National Laboratory - Materials and Fuels Complex (MFC)

Vipul Gupta

General Electric Global Research

Pre-oxidation effect on ATF cladding performance by characterization of irradiated FeCrAl-UO2 capsules

Oak Ridge National Laboratory - Low Activation Materials Development and Analysis (LAMDA)

Yachun Wang

Idaho National Laboratory

A first Investigation in Lanthanide-induced Grain Boundary Embrittlement in HT9 Cladding via In-situ Micro-tensile Testing

Idaho National Laboratory - Materials and Fuels Complex (MFC)

Zachary Mills

Oak Ridge National Laboratory

Coupling CFD and ML to transform the coated nuclear fuels fabrication process

Idaho National Laboratory - Materials and Fuels Complex (MFC)



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