ICME Student Contributions 2019 - MsState

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Student Contribution 2
 
Student Contribution 2
  
* Added the following tutorial to the ICME website [[MDDP using BCC setup for single and multiple Frank Read Sources]]
+
* Added the following tutorial to the ICME website https://www.youtube.com/watch?v=VsqUBnpqJu0&feature=youtu.be
  
 
Student Contribution 3
 
Student Contribution 3
 +
 +
* Added following sections in [[Pure Chromium]] page
 +
*Density Functional Theory (DFT)
 +
*Energy vs. Volume (E-V) Curve
 +
*KPOINT Convergence
 +
*Equation of State (EOS)
 +
*Final Converged E-A and E-V Plots
 +
*Dislocation Dynamics
 +
*MDDP with Single Frank-Read Source
 +
*MDDP with multiple Frank-Read Sources
 +
*Determination of Voce Hardening Law
 +
*Dislocation Mobility
 +
*Single Crystal Plasticity
  
 
===Student 2===
 
===Student 2===
  
 
Student Contribution 1
 
Student Contribution 1
 +
* Added instructions on modifying and running the [[Gsfe curve]] python script.
 +
* Added [[Gsfe curve]] to Repository of Codes.
  
 
Student Contribution 2
 
Student Contribution 2
 +
* Created [[Code: Ternary Plot]] page.
 +
* Linked [[Code: Ternary Plot]] in Repository of Codes.
  
 
Student Contribution 3
 
Student Contribution 3
 +
* Created [[Pure Chromium]] page.
 +
* Linked [[Pure Chromium]] in Metals Category page.
 +
* Added GSFE curves from class assignments to [[Pure Chromium]].
 +
* Intend to add CPFEM and other information from class assignments to [[Pure Chromium]].
  
 
===Student 3===
 
===Student 3===
  
Student Contribution 1
+
Created page to begin putting information about intermediate strain rate testing capabilities at CAVS: [[Intermediate Strain Rate Bar]]
- [[Intermediate Strain Rate Bar]]
+
  
Student Contribution 2
+
Created page detailing the general capabilities of high rate testing at CAVS: [[Split-Hopkinson Pressure Bars| Split-Hopkinson Pressure Bars]] & [[Tension Hopkinson Bars|Tension Bars]]
  
Student Contribution 3
+
Organized pages from [[:Special:UncategorizedPages| uncategorized pages]]
 +
*[[SSC Steel: HY100 steel alloy]]
 +
*[[SSC Steel: 1020 steel alloy]]
 +
*[[SSC Steel: 10b22 steel alloy]]
 +
*[[SSC Steel: 300 Maraging Steel Alloy]]
 +
*[[SSC Steel: 304L SS alloy]]
 +
*[[SSC Steel: 321 SS alloy]]
 +
*[[SSC Steel: 4340 steel alloy]]
 +
*[[SSC Steel: A286 steel alloy]]
 +
*[[SSC Steel: AF steel alloy]]
  
 
===Student 4===
 
===Student 4===
  
 
Student Contribution 1
 
Student Contribution 1
 
+
*[[Python Scripting in Abaqus]]
 
Student Contribution 2
 
Student Contribution 2
 
+
*[[Towards an Open-Source, Preprocessing Framework for Simulating Material Deposition for a Directed Energy Deposition Process]]
 
Student Contribution 3
 
Student Contribution 3
 +
*[[Multi-Scale Modeling of Pure Vanadium]]
  
 
===Student 5===
 
===Student 5===
  
 
Student Contribution 1
 
Student Contribution 1
- [[Media:MDDP_PostProcessing_Tecplot|MDDP Post Processing with Tecplot Tutorial]]  
+
*[[Media:MDDP_PostProcessing_Tecplot.zip|MDDP Post-Processing Tecplot Tutorial]]  
  
 
Student Contribution 2
 
Student Contribution 2
Page creation - [[Piezoelectrically Controlled Actuator]]  
+
*Page creation - [[Piezoelectrically Controlled Actuator]] &  [[Serpentine Transmitted Bar]]
  
 
Student Contribution 3
 
Student Contribution 3
Page creation - [[Serpentine Transmitted Bar]]
+
*Organized pages from [[:Special:UncategorizedPages| uncategorized pages]]
 +
**[[Stainless Steel: 17-7 PH TH1050]]
 +
**[[Stress Strain Curves: Brass]]
 +
**[[SSC Steel: 1006 steel alloy]]
 +
**[[SSC Steel: C1008 steel alloy]]
 +
**[[SSC Steel: FC0205 steel alloy]]
 +
**[[SSC Steel: HY130 steel alloy]]
 +
**[[SSC Steel: HY80 steel alloy]]
 +
**[[SSC Steel: Mild steel alloy]]
 +
**[[SSC Steel: S7tool steel alloy]]
  
 
===Student 6===
 
===Student 6===
  
Student Contribution 1
+
*Student Contribution 1: Uploaded ICME research proposal, [[Residual Stress & Distortion Modelling for Additively Manufactured Ti6Al4V Parts]]. The page is properly linked to relevant categories
  
Student Contribution 2
+
*Student Contribution 2:
 +
**Uploaded a page describing the Additive Manufacturing method Powder Bed Fusion describing its basic outline [[Powder Bed Fusion]]. The page is properly linked to relevant categories
 +
**Uploaded a page describing Metal Matrix Composites (MMCs) and metal matrix Nanocomposites (MMNCs) [[Metal Matrix Composites]]. The page is properly linked to relevant categories
  
Student Contribution 3
+
*Student Contribution 3: The ICME HWs are unified into a single journal article style report, which can be found [[Multi-Scale Modeling of Pure Vanadium|here]]. The page is properly linked to relevant categories
  
 
===Student 7===
 
===Student 7===
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Student Contribution 2: [[PyDEM]] Design software upload.
 
Student Contribution 2: [[PyDEM]] Design software upload.
  
Student Contribution 3: class assignment pending completion.
+
Student Contribution 3: class assignment [[Pure Chromium]]
  
 
===Student 8===
 
===Student 8===
  
 
Student Contribution 1
 
Student Contribution 1
 +
*Added the following page [[Structure Optimization]] under Quantum espresso at Electronic Scale.
 +
*Added the following page [[relax]] under Quantum espresso at Electronic Scale.
 +
*Added the following page [[vc-relax]] under Quantum espresso at Electronic Scale.
  
 
Student Contribution 2
 
Student Contribution 2
 
+
*Added the following page [[How to make Supercell for Quantum ESPRESSO]] under Quantum espresso at Electronic Scale.
 
Student Contribution 3
 
Student Contribution 3
 +
*Added the following page [[ICME overview of shape memory effect on Bismuth Ferrite ceramic]] on Electronic Scale.
  
 
===Student 9===
 
===Student 9===
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===Student 10===
 
===Student 10===
*CLAIMED*
 
 
Student Contribution 1
 
Student Contribution 1
 +
- [[Fatigue Life Prediction of Aluminum Alloy 6063 for Vertical Axis Wind Turbine Blade Application]] (Research proposal)
  
 
Student Contribution 2
 
Student Contribution 2
 +
- [[Characterization and Modeling of the Fatigue Behavior of 304L Stainless Steel Using the MultiStage Fatigue (MSF) Model]] (Co-authored journal article.)
  
 
Student Contribution 3
 
Student Contribution 3
 +
- [[Pure Chromium]] (Co-authored journal article. Main sections include: theoretical models, MEAM potential calibration, and single crystal plasticity.)
  
 
===Student 11===
 
===Student 11===
  
Student Contribution 1
+
Student Contribution 1<br>
 +
Added [[Intermediate Strain-Rate Testing of ASTM A992 and A572 Grade 50 Steel]]
  
Student Contribution 2
+
Student Contribution 2<br>
 +
Added "Tungsten" to [[Metals]]<br>
 +
Added [[W]] to "Tungsten" in [[Metals]]<br>
 +
Added [[The effect of Fe atoms on the absorption of a W atom on W(100) surface]] to "Tungsten" in [[Metals]]<br>
 +
Added [[Nanoscale]] and "Category: Tutorial" to [[Code: WARP - Description]]<br>
  
Student Contribution 3
+
Student Contribution 3<br>
 +
Added [[Proposal for Multiscale Modeling of Tungsten Heavy Alloy (WHA) for Kinetic Energy Perpetrators]]
  
 
===Student 12===
 
===Student 12===
  
 
Student Contribution 1
 
Student Contribution 1
 +
 +
Categorized [[DFT Assignment]] and [[K-Point Variation]]
  
 
Student Contribution 2
 
Student Contribution 2
 +
 +
Added video to [[K-Point Variation]] and linked to the VASP wiki site for more K-Point information.
  
 
Student Contribution 3
 
Student Contribution 3
Line 118: Line 175:
  
 
Student Contribution 1
 
Student Contribution 1
 +
*Added the following page to the ICME website: [[Porosity in Cast Bronze Pump Impeller]]
  
Student Contribution 2
+
Student Contribution 2:
 +
*Added the following tutorial to the ICME website: Installing Linux on Window 10 - Compiling LAMMPS package from the source (https://icme.hpc.msstate.edu/mediawiki/index.php/Category:Nanoscale)
  
Student Contribution 3
+
Student Contribution 3:
 +
*Added the following tutorial to the ICME website: Learn Python - Full Course for Beginners (https://icme.hpc.msstate.edu/mediawiki/index.php/Python)
  
 
===Student 14===
 
===Student 14===
  
Student Contribution 1
+
Student Contribution 1: [[Calculating Dislocation Mobility]]
  
Student Contribution 2
+
Student Contribution 2: [[Multiscale Modeling of Hydrogen Porosity Formation During Solidification of Al-H]]
  
Student Contribution 3
+
Student Contribution 3: [[Multi-Scale Modeling of Pure Vanadium]]
  
 
===Student 15===
 
===Student 15===
  
Student Contribution 1
+
Student Contribution 1: Upload Journal Article: Interatomic Potential for Hydrocarbons on the Basis of the Modified Embedded-Atom Method with Bond-Order (MEAM-BO): https://icme.hpc.msstate.edu/mediawiki/index.php/Interatomic_Potential_for_Hydrocarbons_on_the_Basis_of_the_Modified_Embedded-Atom_Method_with_Bond_Order_(MEAM-BO)
  
Student Contribution 2
+
Student Contribution 2: ICME Research Proposal to Evaluate Multi-Scale Property Relations for Moisture Absorption of Carbon Fiber Reinforced Plastic Bicycle Wheel: https://icme.hpc.msstate.edu/mediawiki/index.php/ICME_Research_Proposal_to_Evaluate_Multi-Scale_Property_Relations_for_Moisture_Absorption_of_Carbon_Fiber_Reinforced_Plastic_Bicycle_Wheel
  
Student Contribution 3
+
Student Contribution 3: Dynamic Dislocation Plasticity Background Information: https://icme.hpc.msstate.edu/mediawiki/index.php/Dynamic_Dislocation_Plasticity.  This page describes key research that was conducted in the background in Dislocation Dynamics and cautions with applying these methods to BCC metals.
  
 
===Student 16===
 
===Student 16===
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===Student 20===
 
===Student 20===
 +
 +
Claimed* in progress
 +
  
 
Student Contribution 1
 
Student Contribution 1
 +
 +
Created multiple post processing codes for plotting data from DFT calculations that can be found at:
 +
 +
* [[EvA_EvV_plot.py | Python code for post-processing EvsA and EvsV files from running Quantum Espresso simulations using the ev_curve.bash script to generate plots for the EvV and EvA curves ]] for [[Code: Quantum Espresso | Quantum Espresso ]]
 +
* [[convergence_plots.py | Python code for post-processing <code> SUMMARY</code> files from running Quantum Espresso simulations using the ev_curve.bash script to generate a plot for a convergence study ]] for [[Code: Quantum Espresso | Quantum Espresso ]]
 +
* [[ecut_conv.py | Python code for post-processing .out files files from running Quantum Espresso simulations to generate a plot for the ecut convergencerate ]] for [[Code: Quantum Espresso | Quantum Espresso ]]
 +
* [[EOS_comp_plot.py | Python code for post-processing <code> SUMMARY</code>, <code> EsvA </code>, <code> EsvV</code>, and <code> evfit.#</code> files from running Quantum Espresso simulations using the ev_curve.bash script to generate a plot comparing the effect of using the different equations of state in the evfit code ]] for [[Code: Quantum Espresso | Quantum Espresso ]]
 +
* [[EOS_plot.py | Python code for post-processing <code> evfit.#</code> files from running Quantum Espresso simulations and using the evfit.f routine to fit to multiple equations of state]] for [[Code: Quantum Espresso | Quantum Espresso ]]
  
 
Student Contribution 2
 
Student Contribution 2
 +
 +
Uploaded research proposal for method of creating nanocrystalline/amorphous metals using femtosecond laser induced ablation. Found at: [[Laser induced microstructure]]
 +
 +
  
 
Student Contribution 3
 
Student Contribution 3
 +
 +
Added link to software for generating high order finite elements to be used in codes that solve PDE's using discretization methods. Works for both continuous and discontinuous methods. Found at:
 +
 +
* [[DIY-FEA]]

Latest revision as of 16:23, 2 May 2019

< ICME 2019 Student Contributions

Contents

[edit] Student Contributions

[edit] Student 1

Student Contribution 1

Student Contribution 2

Student Contribution 3

  • Added following sections in Pure Chromium page
  • Density Functional Theory (DFT)
  • Energy vs. Volume (E-V) Curve
  • KPOINT Convergence
  • Equation of State (EOS)
  • Final Converged E-A and E-V Plots
  • Dislocation Dynamics
  • MDDP with Single Frank-Read Source
  • MDDP with multiple Frank-Read Sources
  • Determination of Voce Hardening Law
  • Dislocation Mobility
  • Single Crystal Plasticity

[edit] Student 2

Student Contribution 1

  • Added instructions on modifying and running the Gsfe curve python script.
  • Added Gsfe curve to Repository of Codes.

Student Contribution 2

Student Contribution 3

[edit] Student 3

Created page to begin putting information about intermediate strain rate testing capabilities at CAVS: Intermediate Strain Rate Bar

Created page detailing the general capabilities of high rate testing at CAVS: Split-Hopkinson Pressure Bars & Tension Bars

Organized pages from uncategorized pages

[edit] Student 4

Student Contribution 1

Student Contribution 2

Student Contribution 3

[edit] Student 5

Student Contribution 1

Student Contribution 2

Student Contribution 3

[edit] Student 6

  • Student Contribution 2:
    • Uploaded a page describing the Additive Manufacturing method Powder Bed Fusion describing its basic outline Powder Bed Fusion. The page is properly linked to relevant categories
    • Uploaded a page describing Metal Matrix Composites (MMCs) and metal matrix Nanocomposites (MMNCs) Metal Matrix Composites. The page is properly linked to relevant categories
  • Student Contribution 3: The ICME HWs are unified into a single journal article style report, which can be found here. The page is properly linked to relevant categories

[edit] Student 7

  • CLAIMED*

Student Contribution 1: A Goal-Oriented, Inverse Decision-Based Design Method for Multi-Component Product Design Personal research paper upload.

Student Contribution 2: PyDEM Design software upload.

Student Contribution 3: class assignment Pure Chromium

[edit] Student 8

Student Contribution 1

  • Added the following page Structure Optimization under Quantum espresso at Electronic Scale.
  • Added the following page relax under Quantum espresso at Electronic Scale.
  • Added the following page vc-relax under Quantum espresso at Electronic Scale.

Student Contribution 2

Student Contribution 3

[edit] Student 9

Student Contribution 1

i have made a section in the microscale category about a tutorial for porous Microsctucture Analysis (PuMA), here is the link of the contributions, https://icme.hpc.msstate.edu/mediawiki/index.php/Category:Microscale#Microscale_oxidation_simulation_PuMA.

and here is the video added in the section https://www.youtube.com/watch?v=l9NrCsXmtBU.

Student Contribution 2

this is an MSF model for the additive manufacturing 17-4 PH stainless steel. https://icme.hpc.msstate.edu/mediawiki/index.php/17-4_PH_SS#MSF_Calibration

Student Contribution 3

Added a page for Research proposal about 17-4 PH SS https://icme.hpc.msstate.edu/mediawiki/index.php/Proposal_for_Multiscale_Modeling_of_17-4_PH_and_life_prediction_using_MSF_model

[edit] Student 10

Student Contribution 1 - Fatigue Life Prediction of Aluminum Alloy 6063 for Vertical Axis Wind Turbine Blade Application (Research proposal)

Student Contribution 2 - Characterization and Modeling of the Fatigue Behavior of 304L Stainless Steel Using the MultiStage Fatigue (MSF) Model (Co-authored journal article.)

Student Contribution 3 - Pure Chromium (Co-authored journal article. Main sections include: theoretical models, MEAM potential calibration, and single crystal plasticity.)

[edit] Student 11

Student Contribution 1
Added Intermediate Strain-Rate Testing of ASTM A992 and A572 Grade 50 Steel

Student Contribution 2
Added "Tungsten" to Metals
Added W to "Tungsten" in Metals
Added The effect of Fe atoms on the absorption of a W atom on W(100) surface to "Tungsten" in Metals
Added Nanoscale and "Category: Tutorial" to Code: WARP - Description

Student Contribution 3
Added Proposal for Multiscale Modeling of Tungsten Heavy Alloy (WHA) for Kinetic Energy Perpetrators

[edit] Student 12

Student Contribution 1

Categorized DFT Assignment and K-Point Variation

Student Contribution 2

Added video to K-Point Variation and linked to the VASP wiki site for more K-Point information.

Student Contribution 3

[edit] Student 13

Student Contribution 1

Student Contribution 2:

Student Contribution 3:

[edit] Student 14

Student Contribution 1: Calculating Dislocation Mobility

Student Contribution 2: Multiscale Modeling of Hydrogen Porosity Formation During Solidification of Al-H

Student Contribution 3: Multi-Scale Modeling of Pure Vanadium

[edit] Student 15

Student Contribution 1: Upload Journal Article: Interatomic Potential for Hydrocarbons on the Basis of the Modified Embedded-Atom Method with Bond-Order (MEAM-BO): https://icme.hpc.msstate.edu/mediawiki/index.php/Interatomic_Potential_for_Hydrocarbons_on_the_Basis_of_the_Modified_Embedded-Atom_Method_with_Bond_Order_(MEAM-BO)

Student Contribution 2: ICME Research Proposal to Evaluate Multi-Scale Property Relations for Moisture Absorption of Carbon Fiber Reinforced Plastic Bicycle Wheel: https://icme.hpc.msstate.edu/mediawiki/index.php/ICME_Research_Proposal_to_Evaluate_Multi-Scale_Property_Relations_for_Moisture_Absorption_of_Carbon_Fiber_Reinforced_Plastic_Bicycle_Wheel

Student Contribution 3: Dynamic Dislocation Plasticity Background Information: https://icme.hpc.msstate.edu/mediawiki/index.php/Dynamic_Dislocation_Plasticity. This page describes key research that was conducted in the background in Dislocation Dynamics and cautions with applying these methods to BCC metals.

[edit] Student 16

Student Contribution 1

Student Contribution 2

Student Contribution 3

[edit] Student 17

Student Contribution 1

Student Contribution 2

Student Contribution 3

[edit] Student 18

Student Contribution 1

Student Contribution 2

Student Contribution 3

[edit] Student 19

Student Contribution 1

Student Contribution 2

Student Contribution 3

[edit] Student 20

Claimed* in progress


Student Contribution 1

Created multiple post processing codes for plotting data from DFT calculations that can be found at:

Student Contribution 2

Uploaded research proposal for method of creating nanocrystalline/amorphous metals using femtosecond laser induced ablation. Found at: Laser induced microstructure


Student Contribution 3

Added link to software for generating high order finite elements to be used in codes that solve PDE's using discretization methods. Works for both continuous and discontinuous methods. Found at:

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