Add to ORKGMicrostructural features at different scales affect the constitutive stress-strain response and the fatigue crack initiation life in Ni-base superalloys. While numerous efforts have been made in the past to experimentally characterize the effects of these features on the stress-strain response and/or the crack initiation life, there is a significant variability in the data with sometimes contradictory conclusions, in addition to the substantial costs involved in experimental testing. Computational techniques can be useful tools to better understand these effects since they are relatively inexpensive and are not restricted by the limitations in processing techniques. The effect of microstructure on the stress-strain response and the...
This dissertation addresses the stress-induced phase transformation that occurs upon the loading of ...
Nanoporous (NP) metal foams combine desirable characteristics of metals with unique nanoarchitectura...
Quartz crystal microbalances (QCM) are chemical sensors used for liquid and vapor sensing. In this ...
A model was created to predict the thermo-mechanical fatigue crack growth rates under typical engine...
Due to the extreme operating conditions present in the combustion sections of gas turbines, designer...
Hot sections of gas engine turbines require specialized materials to withstand extreme conditions pr...
Metal alloys being explored for structural applications exhibit a complex polycrystalline internal s...
Accelerating discovery and deployment of advanced material systems requires moving away from traditi...
An enhanced generation temperature-dependent crystal viscoplasticity (CVP) model targeting the creep...
Non-aqueous redox flow batteries could enable the large-scale deployment of variable energy generati...
Engineers constantly seek advancements in the performance of aircraft and power generation engines, ...
This thesis centers on the design of patchy particles and their self-assembly into ordered structure...
In this work, epoxy resins were modeled using all atom representations in nanoscale simulation boxe...
To better understand consequences of classical assumptions regarding deformation mechanisms at the m...
This research establishes a physics-based life determination model for the second generation single ...
This dissertation addresses the stress-induced phase transformation that occurs upon the loading of ...
Nanoporous (NP) metal foams combine desirable characteristics of metals with unique nanoarchitectura...
Quartz crystal microbalances (QCM) are chemical sensors used for liquid and vapor sensing. In this ...
A model was created to predict the thermo-mechanical fatigue crack growth rates under typical engine...
Due to the extreme operating conditions present in the combustion sections of gas turbines, designer...
Hot sections of gas engine turbines require specialized materials to withstand extreme conditions pr...
Metal alloys being explored for structural applications exhibit a complex polycrystalline internal s...
Accelerating discovery and deployment of advanced material systems requires moving away from traditi...
An enhanced generation temperature-dependent crystal viscoplasticity (CVP) model targeting the creep...
Non-aqueous redox flow batteries could enable the large-scale deployment of variable energy generati...
Engineers constantly seek advancements in the performance of aircraft and power generation engines, ...
This thesis centers on the design of patchy particles and their self-assembly into ordered structure...
In this work, epoxy resins were modeled using all atom representations in nanoscale simulation boxe...
To better understand consequences of classical assumptions regarding deformation mechanisms at the m...
This research establishes a physics-based life determination model for the second generation single ...
This dissertation addresses the stress-induced phase transformation that occurs upon the loading of ...
Nanoporous (NP) metal foams combine desirable characteristics of metals with unique nanoarchitectura...
Quartz crystal microbalances (QCM) are chemical sensors used for liquid and vapor sensing. In this ...