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Home DIGIMU consortium documents

DIGIMU consortium documents

Documents

Articles/Proceedings

2022

2022_Materials_Murgas

2022_Materials_Murgas

2022_ActaMat_Florez

2022_ActaMat_Florez

2022_KEM_Gaillac

2022_KEM_Gaillac

2022_ASTM_Grand

2022_ASTM_Grand

2021

MSMSE_Florez_2021

MSMSE_Florez_2021

MSMSE_Alvarado_2021

MSMSE_Alvarado_2021

2021b_MSMSE_Florez

2021b_MSMSE_Florez

2021_SE_Furstoss

2021_SE_Furstoss

2021_Materials_Murgas

2021_Materials_Murgas

2021_Materials_Florez

2021_Materials_Florez

2020

CMS_Florez_2020

CMS_Florez_2020

JGR_Furstoss_2020

JGR_Furstoss_2020

CMS_Villaret_2020

CMS_Villaret_2020

CMAME_Florez_2020

CMAME_Florez_2020

arXiv_Fausty_2020

arXiv_Fausty_2020

CMS_Ruiz_2020_2

CMS_Ruiz_2020_2

arXiv_Florez_2020b

arXiv_Florez_2020b

arXiv_Florez_2020a

arXiv_Florez_2020a

2020b_Fausty_AMM

2020b_Fausty_AMM

2019

Bernacki_FinalVersion

Bernacki_FinalVersion

DeMicheliEtAl_ESAFORM2019_VF

DeMicheliEtAl_ESAFORM2019_VF

NEMU_2019_Paper_demicheli_DIGIMU_revised

NEMU_2019_Paper_demicheli_DIGIMU_revised

2018

DeMicheli_etal_Aussois2018

DeMicheli_etal_Aussois2018

Furstoss_etal_Aussois2018

Furstoss_etal_Aussois2018

Maire et al. – 2018 – A new topological approach for the mean field modeling of dynamic recrystallization

Maire et al. – 2018 – A new topological approach for the mean field modeling of dynamic recrystallization

2017

Maire et al. – 2017 – 3D Full field modelling of recrystallization in a finite element framework – application to 304L

Maire et al. – 2017 – 3D Full field modelling of recrystallization in a finite element framework – application to 304L

Polychronopoulou et al. – 2017 – Introduction to the level-set full field modeling of laths spheroidization phenomenon

Polychronopoulou et al. – 2017 – Introduction to the level-set full field modeling of laths spheroidization phenomenon

2016

globularization_Polychronopoulou et al._Matec of Conference_2016

globularization_Polychronopoulou et al._Matec of Conference_2016

Full field modeling of Smith-Zener pinning_Scholtes et al._Superalloys_2016

Full field modeling of Smith-Zener pinning_Scholtes et al._Superalloys_2016

Ellipsoid packing_Ilin et al._Matec of Conference_2016

Ellipsoid packing_Ilin et al._Matec of Conference_2016

Full field modeling of DRX_Boulais-Sinou et al._Matec of Conference_2016

Full field modeling of DRX_Boulais-Sinou et al._Matec of Conference_2016

Full field modeling of SRX_Scholtes et al._Computational Materials Science_2016

Full field modeling of SRX_Scholtes et al._Computational Materials Science_2016

Main field versus full field for 3D GG_Maire et al._Journal of Materials Science_ms_2016

Main field versus full field for 3D GG_Maire et al._Journal of Materials Science_ms_2016

Full field modeling of ReX_Bernacki et al._MATCH newsletter_2016

Full field modeling of ReX_Bernacki et al._MATCH newsletter_2016

PhD manuscripts

2022

PhDManuscript_Murgas

PhDManuscript_Murgas

Manuscript_Karen_Alvarado

Manuscript_Karen_Alvarado

2020

PhDManuscript_Sebastian

PhDManuscript_Sebastian

PhDManuscript_Furstoss

PhDManuscript_Furstoss

2018

Ludovic Maire 2018 Full field and mean field modeling of dynamic and post-dynamic recrystallization in 3D – Application to 304L steel

Ludovic Maire 2018 Full field and mean field modeling of dynamic and post-dynamic recrystallization in 3D – Application to 304L steel

2016

$Modesar_Shakoor_2016_Three-dimensional numerical modeling of ductile fracture mechanisms at the microscale$ Modesar_Shakoor_2016_Three-dimensional numerical modeling of ductile fracture mechanisms at the microscale

Benjamin_Scholtes_2016_Development of an efficient level set framework for the full field modeling of recrystallization in 3D

Benjamin_Scholtes_2016_Development of an efficient level set framework for the full field modeling of recrystallization in 3D

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