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Skip to Search Results- 8Finite element method
- 1Abaqus
- 1Alkali-activated based foams
- 1Anisotropic brittle materials
- 1Backfilling
- 1Bond strength
- 2Amirian, Benhour
- 1Abali, Bilen Emek
- 1Fenske, Cameron
- 1Hogan, James D.
- 1Jafarzadeh, Hossein
- 1Jarauta, A.
- 1Bindiganavile, Vivek (Civil and Environmental Engineering)
- 1Chen, Yuxiang (Civil and Environmental Engineering)
- 1Chen, Zengtao (Mechanical Engineering Department)
- 1Hogan, James (Mechanical Engineering Department)
- 1Leung, Juliana (Department of Civil and Environmental Engineering)
- 1Li, Ge (Mechanical Engineering)
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2018-01-01
Jarauta, A., Ryzhakov, P., Pons-Prats, J., Secanell, M.
A Lagrangian incompressible fluid flow model is extended by including an implicit surface tension term in order to analyze droplet dynamics. The Lagrangian framework is adopted to model the fluid and track its boundary, and the implicit surface tension term is used to introduce the appropriate...
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Fall 2019
Cutting the pavement to install a small diameter utility network, such as flexible pipes, conduits or telecommunication lines, is a common practice in urban areas. The last 200 meters of installation is known particularly difficult to deliver, with obstacles both above and below ground to...
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Spring 2024
The escalating energy consumption of buildings highlights the significance of adopting energy-efficient building design and construction practices. The growing demand for higher thermal resistance within building envelopes also necessitates innovative solutions for energy-efficient building...
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Macro-Scale Lithium-Ion Battery Simulation by Means of the Finite Element Method and Concentrated Solution Theory
DownloadFall 2023
Lithium-ion batteries are the leading contender for high density energy storage for applications such as electric vehicles and personal electronic devices. While they promise well over 4 V of potential per cell, actually realizing such high voltages is quite difficult, given the many modes of...
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Spring 2021
Electromagnetic devices, such as transformers and power reactors, are widely used in power systems. Traditionally, these essential components are simplified into lumped net-works in power system electromagnetic transient (EMT) simulations. However, the traditional lumped network model cannot...
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Physics-Based Modeling of Failure of Novel Light-Weight Materials: Applications to Computational Design of Materials
DownloadFall 2021
Advanced physics-based computational models have been developed in this thesis to study dynamic failure in novel light-weight materials used in impact applications, focusing on applying different computational techniques to study three material systems: 1. novel self-propagating high-temperature...
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Spring 2024
Solvent injection processes offer a promising alternative to steam-based techniques for heavy oil recovery. Multiple mass transfer mechanisms, including interphase mass transfer, diffusion, and convection, would affect the process efficiency and recovery performance. Understanding the mass...
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Thermodynamically-consistent derivation and computation of twinning and fracture in brittle materials by means of phase-field approaches in the finite element method
Download2022-10-01
Amirian, Benhour, Jafarzadeh, Hossein, Abali, Bilen Emek, Reali, Alessandro, Hogan, James D.
A theoretical-computational framework is proposed for predicting the failure behavior of two anisotropic brittle materials, namely, single crystal magnesium and boron carbide. Constitutive equations are derived, in both small and large deformations, by using thermodynamics in order to establish a...