lammps-graphene/notes/project_status


Molecular dynamics of bicrystalline and hydrogenated graphene to determine mechanical properties under tensile load and indentation


Sub-Projects
============

(1)	Find mechanical properties of bicrystalline graphene as function of grain orientation and type

(2) Find mechanical properties of bicrystalline graphene as a function of grain defects

(3) Compare similar properties of hydrogenated graphene.


Mechanical properties of interest:
	-	Local Stress Map
	-	Tensile Strength
	-	Elastic Modulus
	-	Crack Propagation


Kien runs analog DFT and provides samples 


Todo
====

Complete literature review based on needs of sub-projects 1 & 2.

Receive samples from Kien.

Complete Task List

If there's time, create task list for hydrogenated graphene.


Task List
=========

* Create script to determine local stress map for each simulation step.

* Create script to determine tensile strength and elastic modulus.

* Create script to graph stress-strain curve.

(Sub-project 1)

* Prepare uniaxial tensile load simulation.

* Run uniaxial tensie load simulation on one sample.

* Propagate local stress map, stress-strain, tensile strength, elastic modulus from results.

* Determine whether everything is working properly.

* Prepare uniaxial tensile load simulation for all samples.

* Determine stress maps for each sample.

* Determine stress-strain curve for each sample, including tensile strength and elastic modulus.

* Organize data and graphs.

(Sub-project 2)

* Prepare biaxial tensile load simulation

* Run biaxial tensile load simulation on one sample.

* Propagate local stress map, stress-strain, tensile strength, elastic modulus from results.

* Determine whether everything is working properly.

* Prepare biaxial tensile load simulation for all samples.

* Determine stress maps for each sample.

* Determine stress-strain curve for each sample, including tensile strength and elastic modulus.

* Organize data and graphs.

(Sub-project 1 & 2B)

* Prepare indentation simulation

* Run indentation simulation on one sample.

* Propagate local stress map, stress-strain, tensile strength, elastic modulus from results.

* Determine whether everything is working properly.

* Prepare biaxial tensile load simulation for all samples.

* Determine stress maps for each sample.

* Determine stress-strain curve for each sample, including tensile strength and elastic modulus.

* Organize data and graphs.


Done
====

	
On the Burner
=============

**	Grain characterisation program

	Requested Features	
	-----------------------------------------------
	-	Index grain boundary atoms
	-	Index central atoms
	-	Determine grain orientation and size
	-
Init and final. 2020-12-23 22:12:07 +00:00
			`Molecular dynamics of bicrystalline and hydrogenated graphene to determine mechanical properties under tensile load and indentation`


			`Sub-Projects`
			`============`

			`(1) Find mechanical properties of bicrystalline graphene as function of grain orientation and type`

			`(2) Find mechanical properties of bicrystalline graphene as a function of grain defects`

			`(3) Compare similar properties of hydrogenated graphene.`


			`Mechanical properties of interest:`
			`- Local Stress Map`
			`- Tensile Strength`
			`- Elastic Modulus`
			`- Crack Propagation`


			`Kien runs analog DFT and provides samples`



			`Todo`
			`====`

			`Complete literature review based on needs of sub-projects 1 & 2.`

			`Receive samples from Kien.`

			`Complete Task List`

			`If there's time, create task list for hydrogenated graphene.`


			`Task List`
			`=========`

			`* Create script to determine local stress map for each simulation step.`

			`* Create script to determine tensile strength and elastic modulus.`

			`* Create script to graph stress-strain curve.`

			`(Sub-project 1)`

			`* Prepare uniaxial tensile load simulation.`

			`* Run uniaxial tensie load simulation on one sample.`

			`* Propagate local stress map, stress-strain, tensile strength, elastic modulus from results.`

			`* Determine whether everything is working properly.`

			`* Prepare uniaxial tensile load simulation for all samples.`

			`* Determine stress maps for each sample.`

			`* Determine stress-strain curve for each sample, including tensile strength and elastic modulus.`

			`* Organize data and graphs.`

			`(Sub-project 2)`

			`* Prepare biaxial tensile load simulation`

			`* Run biaxial tensile load simulation on one sample.`

			`* Propagate local stress map, stress-strain, tensile strength, elastic modulus from results.`

			`* Determine whether everything is working properly.`

			`* Prepare biaxial tensile load simulation for all samples.`

			`* Determine stress maps for each sample.`

			`* Determine stress-strain curve for each sample, including tensile strength and elastic modulus.`

			`* Organize data and graphs.`

			`(Sub-project 1 & 2B)`

			`* Prepare indentation simulation`

			`* Run indentation simulation on one sample.`

			`* Propagate local stress map, stress-strain, tensile strength, elastic modulus from results.`

			`* Determine whether everything is working properly.`

			`* Prepare biaxial tensile load simulation for all samples.`

			`* Determine stress maps for each sample.`

			`* Determine stress-strain curve for each sample, including tensile strength and elastic modulus.`

			`* Organize data and graphs.`





			`Done`
			`====`











			`On the Burner`
			`=============`

			`** Grain characterisation program`

			`Requested Features`
			`-----------------------------------------------`
			`- Index grain boundary atoms`
			`- Index central atoms`
			`- Determine grain orientation and size`
			`-`