Browsing School of Civil and Environmental Engineering Publications and Presentations by Title

Retention and Permeability Properties of Damaged Porous Rocks

Pereira, Jean-Michel; Arson, Chloé (Georgia Institute of Technology, 2013-10)

The objective of this research work is to model the influence of deformation and damage on the permeability and retention properties of cracked porous media. This is achieved thanks to the introduction of microscale ...

The Risks of Hydraulic Fracturing and the Responsibilities of Engineers

Kirkman, Robert; Arson, Chloé; Stewart, Lauren; Harris, Rebecca; Francis, Amanda (2017-03)

One third of U.S. natural gas is extracted by injecting fluid at high pressure into shale formations, a process associated with a number of possible hazards and risks that have become the subject of intense public controversy. ...

Rock Damage and Healing Mechanics

Arson, Chloé (Georgia Institute of Technology, 2014-05-15)

Rock Stiffness and Permeability During Crack Opening and Closure: A Planar Transverse Isotropic (PTI) Model Using Pore Size Distributions (PSD)

Arson, Chloé; Pereira, Jean-Michel (Georgia Institute of Technology, 2013-07)

A micro-macro model is proposed to study opening and closure of parallel crack planes in a porous rock. Pore Size Distributions (PSDs) of natural pores and cracks are updated with volumetric fractions, defined as distinct ...

Seismic site effects by an optimized 2D BE/FE method I. Theory, numerical optimization and application to topographical irregularities

Gatmiri, Behrouz; Arson, Chloé; Ngyuen, K.V. (Georgia Institute of Technology, 2007-10)

This paper deals with the evaluation of seismic site effects due to the local topographical and geotechnical characteristics. The amplification of surface motions is calculated by a numerical method combining finite elements ...

Seismic site effects by an optimized 2D BE/FE method. II. Quantification of site effects in two-dimensional sedimentary valleys

Gatmiri, Behrouz; Arson, Chloé (Georgia Institute of Technology, 2007-10)

This paper deals with the evaluation of seismic site effects due to the local topographical and geotechnical characteristics. The amplification of surface motions is calculated by a numerical method combining finite elements ...

Self-consistent micromechanical approach for damage accommodation in rock-like polycrystalline materials

Pouya, Ahmad; Zhu, Cheng; Arson, Chloé (Georgia Institute of Technology, 2017)

In quasi-brittle polycrystalline materials, damage by cracking or cleavage dominates plastic and viscous deformation. This paper proposes a micromechanical model for rock-like materials, incorporating the elastic-damage ...

Simulation of mode II unconstrained fracture path formation coupled with continuum anisotropic damage propagation in shale

Jin, Wencheng; Arson, Chloé (Georgia Institute of Technology, 2016-06)

The objective of this work is to simulate mode II multi-scale fracture propagation in shale by coupling a continuum anisotropic damage model with a Cohesive Zone Model (CZM). The Continuum Damage Mechanics – based ...

Simulation of salt cavity healing based on a micro-macro model of pressure-solution

Shen, Xianda; Arson, Chloé (Geological Society, United Kingdom, 2019-01)

CO₂ storage in salt rock is simulated with the Finite Element Method (FEM), assuming constant gas pressure. The initial state is determined by simulating cavity excavation with a Continuum Damage Mechanics (CDM) model. A ...

Simulation of the Unsaturated Excavation Damage Zone Around a Tunnel Using A Fully Coupled Damage-Plasticity Model

Le Pense, Solenn; Arson, Chloé; Gatmiri, Behrouz; Pouya, Ahmad (Georgia Institute of Technology, 2013-07)

During tunnel excavation, stress redistribution produces plastic deformation and damage around the opening. Moreover, the surrounding soil can be either saturated or unsaturated. Suction has a significant influence on the ...

Site-specific Spectral Response of Seismic Movement due to Geometrical and Geotechnical Characteristics of Sites

Gatmiri, Behrouz; Maghoul, P.; Arson, Chloé (Georgia Institute of Technology, 2008-04)

It is well-known that the response of a site to a seismic solicitation depends on local topographical and geotechnical characteristics. Many aspects of seismic site effect still need to be studied in more detail and they ...

Stiffness and Deformation of Rock Subjected to Anisotropic Damage and Temperature-Dependent Healing

Xu, Hao; Arson, Chloé; Chester, Fred M. (Georgia Institute of Technology, 2012-06)

This research is motivated by the increasing need for geostorage facilities, mainly: nuclear waste disposals, high-pressure gas reservoirs and carbon dioxide sequestration systems. A new constitutive model is formulated ...

Structure and mechanical behavior of dentin-inspired nanoporous copper

Ibru, Timothy; Violante, Sarah; Vennat, Elsa; Arson, Chloé; Antoniou, Antonia (2019)

Dentin possesses a hierarchical porous structure with varying cross-scale morphology and characteristic lengths ranging from nanometers to micrometers. NP Copper is fabricated with nano-sized and micron-sized features that ...

Substrate composition directs slime molds behavior

Patino-Ramirez, Fernando; Boussard, Aurèle; Arson, Chloé; Dussutour, Audrey (2019)

Physarum polycephalum, also called slime mold, is a giant single-celled organism that can grow to cover several square meters, forming search fronts that are connected to a system of intersecting veins. An original ...

Tensile strength of calcite/HMWM and silica/HMWM interfaces: A Molecular Dynamics analysis

Arson, Chloé; Ji, Koochul (K.) (Georgia Institute of Technology, 2020-03)

The mechanical behavior of interfaces between high molecular weight methacrylate (HMWM) and concrete minerals (calcite and silica) is investigated from a Molecular Dynamics (MD) perspective. MD simulations of pullout tests ...

Theoretical Bases of A Thermo-Mechanical Damage and DMT-Healing Model for Rock

Zhu, Cheng; Arson, Chloé (Georgia Institute of Technology, 2014-02)

A theoretical framework is proposed to model thermo-mechanical (TM) crack opening, closure, and healing in rock. The model is based on Continuum Damage Mechanics and thermodynamics. The postulated free energy is a polynomial ...

Theoretical study of damage accommodation in salt subject to viscous fatigue

Zhu, Cheng; Arson, Chloé; Pouya, A. (Georgia Institute of Technology, 2015-05)

Underground salt cavities used for compressed air energy storage undergo cyclic loads and are subject to a fatigue phenomenon that reduces rock strength and stiffness. Understanding such behaviors and developing relevant ...

Thermo-Hydro-Mechanical Modeling of Damage in Unsaturated Porous Media: Theoretical Framework and Numerical Study of the EDZ

Arson, Chloé; Gatmiri, Behrouz (Georgia Institute of Technology, 2011-01)

The damage model presented in this article (named ‘THHMD’ model) is dedicated to non-isothermal unsaturated porous media. It is formulated by means of three independent strain state variables, which are the thermodynamic ...

A Thermo-Mechanical Damage Model for Rock Stiffness during Anisotropic Crack Opening and Closure

Zhu, Cheng; Arson, Chloé (Georgia Institute of Technology, 2013-11)

A thermodynamic framework is proposed to couple the effect of mechanical stress and temperature on crack opening and closure in rocks. The model is based on continuum damage mechanics, with damage defined as the second-order ...

Thermo-mechanical radial expansion of heat exchanger piles and possible effects on contact pressures at pile-soil interface

Olgun, C. Guney; Ozudogru, Tolga Y.; Arson, Chloé (Georgia Institute of Technology, 2014)

This letter shows that the increase of heat exchanger pile capacity in response to heating, observed in several small-scale laboratory studies, cannot be directly attributed to the increase of contact pressure at the ...