DAMASK_EICMD/README.md

# DAMASK - The Düsseldorf Advanced Material Simulation Kit

Visit [damask.mpie.de](https://damask.mpie.de) for installation and usage instructions

## DAMASK_EICMD

This is a DAMASK fork with implementation of the "Discrete Deformation Twinning Model" based on work done by Dr. Satyapriya Gupta and Dr. Philip Eisenlohr at MSU.

### The Discrete Deformation Twinning Model
The aim of this model is to accurately match experimental observations of deformation twinning while remaining computationally efficient compared to physics-based phase field models.

* We introduce stochasticity for the nucleation and growth events of twinning through random sampling, similar to Monte Carlo Methods.
* The ease or difficulty of a twinning event is controlled by adjusting the frequency of sampling.
* At each voxel, the state of twinning is treated as a discrete quantity, unlike the approach based on diffused volume fraction method.
* The kinetics of twinning occur in the form of a “jump,” rather than following a rate equation as in the “pseudo-slip” approach.
* The jumped state is evaluated using the correspondence matrix from Niewczas, Acta Materialia, 2010.

## Contact Information

(
EICMD Team, IIT Dharwad
https://sites.google.com/view/eicmd/home
)

Max-Planck-Institut für Eisenforschung GmbH  
Max-Planck-Str. 1  
40237 Düsseldorf  
Germany  

damask@mpie.de  
https://damask.mpie.de  
https://git.damask.mpie.de
markdown - as for PRIVATE 2022-04-15 19:05:09 +05:30			`# DAMASK - The Düsseldorf Advanced Material Simulation Kit`

			`Visit [damask.mpie.de](https://damask.mpie.de) for installation and usage instructions`

frozen and variant are 1D again 2024-03-06 11:08:03 +05:30			`## DAMASK_EICMD`

			`This is a DAMASK fork with implementation of the "Discrete Deformation Twinning Model" based on work done by Dr. Satyapriya Gupta and Dr. Philip Eisenlohr at MSU.`

			`### The Discrete Deformation Twinning Model`
			`The aim of this model is to accurately match experimental observations of deformation twinning while remaining computationally efficient compared to physics-based phase field models.`

			`* We introduce stochasticity for the nucleation and growth events of twinning through random sampling, similar to Monte Carlo Methods.`
			`* The ease or difficulty of a twinning event is controlled by adjusting the frequency of sampling.`
			`* At each voxel, the state of twinning is treated as a discrete quantity, unlike the approach based on diffused volume fraction method.`
			`* The kinetics of twinning occur in the form of a “jump,” rather than following a rate equation as in the “pseudo-slip” approach.`
			`* The jumped state is evaluated using the correspondence matrix from Niewczas, Acta Materialia, 2010.`

markdown - as for PRIVATE 2022-04-15 19:05:09 +05:30			`## Contact Information`

frozen and variant are 1D again 2024-03-06 11:08:03 +05:30			`(`
			`EICMD Team, IIT Dharwad`
			`https://sites.google.com/view/eicmd/home`
			`)`

nicely formatted readmes 2022-04-15 19:10:24 +05:30			`Max-Planck-Institut für Eisenforschung GmbH`
			`Max-Planck-Str. 1`
			`40237 Düsseldorf`
			`Germany`

			`damask@mpie.de`
			`https://damask.mpie.de`
			`https://git.damask.mpie.de`