Current Metals Research Projects
Amit Ghosh
- Cavitation during superplastic deformation of modified 5083 Al
- Novel lightweight open cell metal foam process and resulting properties
- Fabrication and creep studies on open cell nickle structures
- Elastic and Inelastic Recovery after Plastic Deformation of DQSK Steel Sheet
- Inelastic effects on springback in metals
- MICROSTRUCTURAL EVOLUTION DURING SEVERE DEFORMATION OF AZ31 MAGNESIUM ALLOY UNDER NON-ISOTHERMAL PROCESSING CONDITIONS
Sharon Glotzer
- Integrated Multiscale Modeling of Molecular Computing Devices
- Cooperative molecular motion and spatially heterogeneous dynamics in supercooled liquids and glasses
- Role of Spatially Heterogeneous Dynamics and Polydispersity in the Early Stages of Homogeneous Nucleation: Application to the Promotion and Suppression of Crystallization and Vitrification
J. Wayne Jones
- Focused Research Group (FRG): Fundamental Approaches to Design of New Structural Magnesium Alloys
- Rapid Assessment of the Role of Microstructural Variability in the Fatigue Behavior of Structural Alloys Using Ultrasonic Fatigue
- GOALI: Investigation by Ultrasonic Methods of the Very Long Life Fatigue Behavior of Structural Aluminum and Magnesium Alloys
- Rapid Assessment of the Role of Microstructural Variability in the Fatigue Behavior of Structural Alloys Using Ultrasonic Fatigue
- Rapid Characterization of Fatigue Behavior in Cast Structural Material by Ultrasonic Fatigue
- Alloys for 1000C Service in the Next Generation Nuclear Plant
- MURI: Hyperspectral and Extreme Light Diagnostics for Defense-Critical Advanced Materials and Processes
- Creep, Bolt Load Retention (BLR) and Microstructural Analysis of Mg Alloys for Automotive Powertrain Applications
Tresa Pollock
- Bond Coats and Thermal Barrier Coatings
- Rapid Assessment of the Role of Microstructural Variability in the Fatigue Behavior of Superalloys Using Ultrasonic Fatigue
- Focused Research Group onFundamental Aspects of Design of New Structural Magnesium Alloys
- Ruthenium Aluminides: Deformation Mechanisms and Substructure Development
- Femtosecond Laser-Assisted Health Monitoring of Critical Structural Components in Advanced Defense Systems
- Local Strain Development and Property Variability in B2 Aluminides
- Development of Microstructure and Micromechanism-Sensitive Property Models and Their Integration into the Design of Advanced Disk and Blade Turbine Systems
- Defects Associated with Solidification of Melt-Processed Superalloys for the Aerospace Industry and Their Impact on High-Temperature Mechanical Properties
- Knowledge-Oriented Materials Engineering of Layered Thermal Protection
- Hold Time Dwell Fatigue in Advanced Disk Alloys
- MURI: Revolutionary Materials for Hypersonic Flight
- MURI: Hyperspectral and Extreme Light Diagnostics for Defense-Critical Advanced Materials and Processes
- Strategies for Alloy Development for 1000 degree C Service in the Next Generation Nuclear Plant
- Single Crystal Growth by the Liquid Metal Cooling Process
- Mechanisms of Deformation and Structure-Property Models for Creep in Rotor Materials
- Tools for 3-D Microstructural Characterizaion
Gary Was
- Design of Radiation-Tolerant Alloys for Generation IV
- Developing and Evaluating Candidate Materials for Generation IV
- Stress Corrosion Cracking and Corrosion of Candidate Alloys for the Supercritical Water Reactor Concept
- BWRVIP Highly Irradiated Stainless Steel Crack Growth
- Localized Deformation as a Primary Cause of Irradiation Assisted Stress Corrosion Cracking
- Candidate Materials Evaluation for the Supercritical Water-cooled Reactor
- Alloys for 1000C Service in the Next Generation Nuclear Plant