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Brian R. Phung

ORCID: 0000-0003-0690-3115
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About
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A5018236050
Research Areas
  • Numerical methods in engineering
  • Fatigue and fracture mechanics
  • Rock Mechanics and Modeling
  • Cellular and Composite Structures
  • Neonatal Respiratory Health Research
  • Orthopedic Surgery and Rehabilitation
  • Mechanical Behavior of Composites
  • Fluid Dynamics Simulations and Interactions
  • Traumatic Brain Injury and Neurovascular Disturbances
  • Composite Material Mechanics
  • High Temperature Alloys and Creep
  • Traumatic Brain Injury Research
  • Fluid Dynamics and Heat Transfer
  • Mechanical stress and fatigue analysis
  • Computational Geometry and Mesh Generation
  • Aluminum Alloy Microstructure Properties
  • Advanced Surface Polishing Techniques
  • Microstructure and mechanical properties
  • Pickering emulsions and particle stabilization
  • Corrosion Behavior and Inhibition
  • Metal Forming Simulation Techniques
  • Shoulder and Clavicle Injuries

University of Utah
 2019-2025

 Implementation and experimental validation of nonlocal damage in a large-strain elasto-viscoplastic FFT-based framework for predicting ductile fracture in 3D polycrystalline materials
OPENALEX - Publications 
Carter K. Cocke Hadi Mirmohammad Miroslav Zecevic Brian R. Phung Ricardo A. Lebensohn and 2 more O.T. Kingstedt Ashley D. Spear

10.1016/j.ijplas.2022.103508 article EN publisher-specific-oa International Journal of Plasticity 2023-01-06
 Predicting fall parameters from infant skull fractures using machine learning
OPENALEX - Publications 
Jacob Hirst Brian R. Phung B. Johnsson Junyan He Brittany Coats and 1 more Ashley D. Spear

10.1007/s10237-024-01922-7 article EN Biomechanics and Modeling in Mechanobiology 2025-01-18
 A convected-particle tetrahedron interpolation technique in the material-point method for the mesoscale modeling of ceramics
OPENALEX - Publications 
R.B. Leavy James E. Guilkey Brian R. Phung Ashley D. Spear Rebecca M. Brannon

10.1007/s00466-019-01670-x article EN Computational Mechanics 2019-02-04
 Predicting microstructurally sensitive fatigue‐crack path in WE43 magnesium using high‐fidelity numerical modeling and three‐dimensional experimental characterization
OPENALEX - Publications 
Brian R. Phung Duncan A. Greeley Mohammadreza Yaghoobi Jacob F. Adams John E. Allison and 1 more Ashley D. Spear

Abstract Microstructurally small fatigue‐crack growth in polycrystalline materials is highly three‐dimensional due to sensitivity local microstructural features (e.g., grains). One requirement for modeling microstructurally sensitive crack propagation establishing the criteria that govern evolution, including deflection. Here, a high‐fidelity finite‐element framework used assess performance and validity of various crack‐growth criteria, slip‐based metrics fatigue‐indicator parameters), as...

10.1111/ffe.14210 article EN Fatigue & Fracture of Engineering Materials & Structures 2023-12-26
 Statistical analysis of microstructurally small fatigue crack growth in three-dimensional polycrystals based on high-fidelity numerical simulations
OPENALEX - Publications 
V. Rao Brian R. Phung B. Johnsson Ashley D. Spear

10.1016/j.engfracmech.2024.110282 article EN Engineering Fracture Mechanics 2024-07-15
 Investigating the effect of grain structure on compressive response of open-cell metal foam using high-fidelity crystal-plasticity modeling
OPENALEX - Publications 
Dongfang Zhao Kristoffer E. Matheson Brian R. Phung Steve Petruzza Michael W. Czabaj and 1 more Ashley D. Spear

10.1016/j.msea.2021.140847 article EN publisher-specific-oa Materials Science and Engineering A 2021-02-05
 A voxel-based remeshing framework for the simulation of arbitrary three-dimensional crack growth in heterogeneous materials
OPENALEX - Publications 
Brian R. Phung Ashley D. Spear

10.1016/j.engfracmech.2019.01.008 article EN Engineering Fracture Mechanics 2019-01-31
 The third Sandia Fracture Challenge: from theory to practice in a classroom setting
OPENALEX - Publications 
Ashley D. Spear Michael W. Czabaj Pania Newell Karen J. DeMille Brian R. Phung and 19 more Dongfang Zhao Peter Creveling Nathan Briggs Eric Brodbine Christopher J. Creveling Eric Edelman Kristoffer E. Matheson Caitlin M. Arndt Megan Buelte Stuart Childs Isaac Nelson Faramarz Safazadeh Jordan French Clay Audd Austin J. Smith Edward J. Dorrian Gregory A. Clark Jonathan Tayler Renan Ichi

10.1007/s10704-019-00366-w article EN International Journal of Fracture 2019-06-25
 A surface-mesh gradation tool for generating gradated tetrahedral meshes of microstructures with defects
OPENALEX - Publications 
Brian R. Phung Junyan He Ashley D. Spear

10.1016/j.commatsci.2021.110622 article EN Computational Materials Science 2021-06-17
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