Add to ORKGDetailed understanding between microstructure evolution and mechanical properties is important for designing new high burnup nuclear fuels. In this presentation we discuss the use of picosecond ultrasonics to measure localize changes in mechanical properties of fuel surrogates. We develop measurement techniques that can be applied to investigate heterogeneous elastic properties caused by localize changes in chemistry, grain microstructure caused by recrystallization, and mechanical properties of small samples prepared using focused ion beam sample preparation. Emphasis is placed on understanding the relationship between microstructure and mechanical propertie
Uranium-molybdenum (U-Mo) is a metallic fuel studied for decades for use in research and test reac...
A laser ultrasonics approach to remotely characterize the elastic and thermal properties of a coatin...
The first measurements of elastic vibrations of an object in-situ to a high gamma irradiation field ...
Mechanical properties are controlled to a large degree by defect structures such as dislocations and...
A novel methodology has been suggested for estimation of elastic properties of nuclear fuel material...
The characterization of mechanical properties constitutes a key challenge for the study of nuclear ...
We report the measurement of elastic constants of non-irradiated UO2, SIMFUEL (simulated spent fuel:...
Laser ultrasonics for metallurgy is an innovative sensor dedicated to the measurement of microstruct...
Recent developments in laser-ultrasonic technology have made it possible to remotely inspect large a...
Ultrasonic methods used in the study of radiation damage and recovery in single crystals appear to a...
With age and storage, the mechanical properties of solid rocket propellants change due to oxidizer p...
Materials in nuclear power plants are subjected to a variety of time-dependent aging phenomena, depe...
The focus of the present thesis is the determination of the elastic properties of nuclear fuel using...
Materials at the nanoscale often have properties which differ from those they have in the bulk form....
Shock waves can be induced in samples by illumination with an intense laser; pressure is generated a...
Uranium-molybdenum (U-Mo) is a metallic fuel studied for decades for use in research and test reac...
A laser ultrasonics approach to remotely characterize the elastic and thermal properties of a coatin...
The first measurements of elastic vibrations of an object in-situ to a high gamma irradiation field ...
Mechanical properties are controlled to a large degree by defect structures such as dislocations and...
A novel methodology has been suggested for estimation of elastic properties of nuclear fuel material...
The characterization of mechanical properties constitutes a key challenge for the study of nuclear ...
We report the measurement of elastic constants of non-irradiated UO2, SIMFUEL (simulated spent fuel:...
Laser ultrasonics for metallurgy is an innovative sensor dedicated to the measurement of microstruct...
Recent developments in laser-ultrasonic technology have made it possible to remotely inspect large a...
Ultrasonic methods used in the study of radiation damage and recovery in single crystals appear to a...
With age and storage, the mechanical properties of solid rocket propellants change due to oxidizer p...
Materials in nuclear power plants are subjected to a variety of time-dependent aging phenomena, depe...
The focus of the present thesis is the determination of the elastic properties of nuclear fuel using...
Materials at the nanoscale often have properties which differ from those they have in the bulk form....
Shock waves can be induced in samples by illumination with an intense laser; pressure is generated a...
Uranium-molybdenum (U-Mo) is a metallic fuel studied for decades for use in research and test reac...
A laser ultrasonics approach to remotely characterize the elastic and thermal properties of a coatin...
The first measurements of elastic vibrations of an object in-situ to a high gamma irradiation field ...