Data-driven reduced-order models for rank-ordering the high cycle fatigue performance of polycrystalline microstructures: codes and data files
01 Feb 2018 | Contributor(s):: Noah H. Paulson
This data-set contains the codes and data files relevant to the paper titled "Data-driven reduced-order models for rank-ordering thehigh cycle fatigue performance of polycrystalline microstructures" [Paulson2017_HomogenizationHCF]. Data-files are provided so that the figures...
Synthetic alpha-Ti Microstructures and Associated High Cycle Fatigue Responses via Crystal Plasticity Finite Element Method Simulations
09 Jun 2017 | Contributor(s):: Matthew William Priddy, Noah H. Paulson, Surya R. Kalidindi, David McDowell
SummaryThis data set consists of 100 microstructure volumes and their associated local responses as computed via crystal plasticity finite element method (CPFEM) simulations. Cyclic loading is performed to obtain microstructure responses consistent with the high cycle fatigue (HCF) regime. These...
Synthetic alpha-Ti Microstructures and Associated Transition Fatigue Responses
13 May 2017 | Contributor(s):: Matthew William Priddy, Noah Paulson, David McDowell, Surya R. Kalidindi
SummaryThis data set consists of over 3600 microstructure volumes and their associated local responses after three cycles of cyclic loading. This loading is expected to result in microstructure responses consistent with the transition regime between high cycle fatigue (HCF) and low cycle fatigue...
Noah Paulson Research
This wiki contains pages which introduce and motivate Noah Paulson’s Ph.D. work
MKS for Titanium Polycrystals - Rank Ordering of HCF Resistance using Localization
Regents’ Professor and Carter N. Paden, Jr. Distinguished Chair in Metals Processing, Dave McDowell joined Georgia Tech in 1983 and holds a dual appointment in the GWW School of Mechanical...