thesis proposal sina moeini ardakani members of the committee: prof. m. j. buehler dr. s. r. hyde...
TRANSCRIPT
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Thesis Proposal
Sina Moeini Ardakani
Members of the Committee:Prof. M. J. Buehler
Dr. S. R. HydeProf. J. Li
Prof. R. J. –M. Pellenq
Jul 9, 2015
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Displacive VS. Diffusion
Displacive:• Mechanical Twinning• Dislocation glide• Martensitic transformationDiffusion:• Dislocation climb• Precipitation• Dissolution
Military (Displacive)Civilian (Diffusion)
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Part I. Methodology
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Scope of Simulations
Multi-scale simulation
Experiments
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Statistical Mechanics
• System consists of N atoms
• Phase-Space 6N dim. 3N Position 3N Momentum
• Poisson-Boltzmann weight distribution
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Thermo. Quant. & Ergodicity
• No need to integrate all over the phase space• Follow the system trajectory over long periods of time• Calculate the thermodynamics quantities by averaging out
over time
• Thermodynamic Quantities:
• Ergodicity:
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MD
Potential Energy : based on the given potentials from first principles
EAM Potential:
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MD
Initial Configuration
Assign Velocities
Calculate Energy& Forces
Update Velocityusing Newton’s 2nd
Law
Update X Using Velocity & Timestep
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Diffusive MD
• Capture diffusive timescale• Passes through trillions of
energy barriers• No catalog event required • Gaussian variation coupled
with diffusion.• Degrees of freedom per atomic
site (5): Position (3) + Gaussian width (1) + occupation probability (1)
• Minimize free energy • Evolution of occ. prob. due to
diffusion master equation
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Diffusive MD
Chemical integration stepMinimize F w.r.t.
and
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Diffusive MD
Probability Wave of Vacancy Random Walker
Representing long-range mass transport by vacancy random walk with MD, hyper-MD or kinetic Monte Carlo could require trillions of vacancy hops – impractical and unnecessary
Advantage of a continuous site-probability representation at atomic resolution
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What is MAPP?
• MAPP = MIT Atomistic Parallel Package
• Open source MD/DMD software
• Written in C++, parallel using MPI
• Available online for public:
http://github.com/sinamoeini/MAPP
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Why write a new code?
• Easier to manipulate the source code.• Designed and optimized for metallic potentials• 38% faster than the most popular MD code
(LAMMPS) (Benchmark performed on 100 processors).
• New parallelization schemes for faster data transfer between processors.
• Equipped with DMD.• New minimization algorithm (L-BFGS) (not possible
in LAMMPS).
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Example of Input File
Initial config.Force Field typeForce Field file
Record snapshot
Minimization
Print the thermo.quantity
Set ensembleBoltz. const.Setup time step
Strain the boxRUN!!!
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Example of Output File
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Part II. White Etching Area
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Achilles Hill of Wind Turbines
• Wind turbines bearings fail well before their life expectancy
• The macro cause of failure is usually material spalling or radial cracking of raceway
• Cracks are almost always accompanied by White Etching Areas (WEAs)
• WEA: Cause or symptom? Chicken or Egg issue
But why it happens more often in wind turbines?• Changes in speed and direction (not
uniform)• Engagement and disengagement with the
gearbox
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WEA
Micro-Structural Features in WEA:• Ferrite with supersaturated carbon• Equiaxed, nano-grains sizes (10-
100nm)• Absence of Carbides• Harder than surrounding matrix
Fig. 6. Scanning electron microscope image of resulting nanohardness indentations with corresponding measured hardness value. Five of the six indents shown; the sixth indent not shown measured 10.1 GPa.
Greco, Sheng, Keller, Erdemir Wear 302 (2013)
Possible causes of WEA in Wind Turbines:• Hydrogen embrittlement • Strain rate• Plastic deformation in presence of cracks
and voids
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Major Phases of Fe-C Mixture
Cementite (Fe3C):Orthorhombic
Austenite/Iron FCC (Υ):Cubic
Ferrite/Iron BCC (α):Cubic
Martensite/Iron BCT:Tetragonal
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Major Microstructures of Fe-C Mixture
• Retained Austenite• Martensite• Pearlite: Fe3C+Fe( ), layered α
structure• Bainite: Fe3C+Fe( ), needle α
shaped Fe( ) separated by αelongated Fe3C
• Spherodite: Fe3C+Fe( ), spherical αFe3C particles inside Fe( ) matrixα
Pearlite
Bainite
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Fe-C Phase Diagram
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Proposed structure of WEA
Image from Timken
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Proposed structure of WEA
• Zone 0: original material• Zone 1: crack/shear band; strain
rate 100-1000/s induces SB • Zone 2: processed material, nano
ferrite, can be considered amorphous like metallic glasses
• Zone 3: relaxed processed material. Finer grains than Zone 0
• Zone properties:1. Very high/low aspect.2. Allows atom transfer across. 3. Damps energy.4. It is shear soft.