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Daniel T. Chou

Georgia Institute of Technology, Students

SCHOLARLY PAPERS

4

DOWNLOADS

385

TOTAL CITATIONS

1

Scholarly Papers (4)

Felino: A Modular Open-Access Software for High-Cycle Fatigue Simulation via Phase-Field Methods

Number of pages: 18 Posted: 17 Jun 2025
Roya Darabi and Daniel T. Chou
University of Porto and Georgia Institute of Technology, Students
Downloads 120 (611,628)
Citation 1

Abstract:

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SOFTX-D-25-00374 Article Type: Original software publication Section/Category: Mathematical and Physical Sciences Multiphysics Object Oriented Simulation Environment (MOOSE), Felino, Phase Field Method, High-Cycle Fatigue

Felino: A Modular Open-Access Software for High-Cycle Fatigue Simulation Via Phase-Field Methods

Number of pages: 16 Posted: 13 Jun 2025
Daniel T. Chou and Roya Darabi
Georgia Institute of Technology, Students and University of Porto
Downloads 48 (1,119,531)

Abstract:

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Multiphysics Object Oriented Simulation Environment (MOOSE), Felino, Phase Field Method, High-Cycle Fatigue

2.

Computer Methods in Applied Mechanics and Engineering Felino: An Open-Source Phase-Field Framework for High-Cycle Thermo-Mechanical Fatigue Crack Nucleation and Growth

Computer Methods in Applied Mechanics and Engineering, Forthcoming
Number of pages: 43 Posted: 08 Jul 2025
Daniel T. Chou and Roya Darabi
Georgia Institute of Technology, Students and University of Porto
Downloads 131 (554,631)

Abstract:

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High-Cycle-Fatigue, Phase-field modeling, Crack-nucleation, Crack-propagation, Felino

3.

Felino: An Open-Source Phase-Field Framework for High-Cycle Thermo-Mechanical Fatigue Crack Nucleation and Growth

Number of pages: 41 Posted: 01 Jul 2025
Daniel T. Chou and Roya Darabi
Georgia Institute of Technology, Students and University of Porto
Downloads 51 (1,063,489)

Abstract:

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High-Cycle-Fatigue, Phase-field modeling, Crack-nucleation, Crack-propagation, Felino

4.

Quantifying the Influence of Energy-Decomposition Formulations on Crack-Driving Forces: A Unified Phase-Field Hydraulic Fracturing Framework

Number of pages: 38 Posted: 24 Sep 2025
Daniel T. Chou
Georgia Institute of Technology, Students
Downloads 35 (1,249,711)

Abstract:

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Phase-field fracture, Hydraulic fracturing, Crack-driving force, Energy decomposition, Finite element analysis