[HTML][HTML] Optimal stress and deformation partition in gradient materials for better strength and tensile ductility: A numerical investigation
Y Wang, G Yang, W Wang, X Wang, Q Li, Y Wei - Scientific reports, 2017 - nature.com
Inspired by recent progress in developing gradient materials with excellent performances,
here we report a systematic finite-element based investigation to show how the strength and …
here we report a systematic finite-element based investigation to show how the strength and …
Optimal stress and deformation partition in gradient materials for better strength and tensile ductility: A numerical investigation
Y Wang, G Yang, W Wang, X Wang, Q Li… - Scientific …, 2017 - pubmed.ncbi.nlm.nih.gov
Inspired by recent progress in developing gradient materials with excellent performances,
here we report a systematic finite-element based investigation to show how the strength and …
here we report a systematic finite-element based investigation to show how the strength and …
Optimal stress and deformation partition in gradient materials for better strength and tensile ductility: A numerical investigation
Y Wang, G Yang, W Wang, X Wang, Q Li, Y Wei - Scientific Reports, 2017 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: p> Inspired by recent progress in developing
gradient materials with excellent performances, here we report a systematic finite-element …
gradient materials with excellent performances, here we report a systematic finite-element …
[HTML][HTML] Optimal stress and deformation partition in gradient materials for better strength and tensile ductility: A numerical investigation
Y Wang, G Yang, W Wang, X Wang, Q Li, Y Wei - Scientific Reports, 2017 - ncbi.nlm.nih.gov
Inspired by recent progress in developing gradient materials with excellent performances,
here we report a systematic finite-element based investigation to show how the strength and …
here we report a systematic finite-element based investigation to show how the strength and …
Optimal stress and deformation partition in gradient materials for better strength and tensile ductility: A numerical investigation.
Y Wang, G Yang, W Wang, X Wang, Q Li, Y Wei - Scientific Reports, 2017 - europepmc.org
Inspired by recent progress in developing gradient materials with excellent performances,
here we report a systematic finite-element based investigation to show how the strength and …
here we report a systematic finite-element based investigation to show how the strength and …
Optimal stress and deformation partition in gradient materials for better strength and tensile ductility: A numerical investigation
Y Wang, G Yang, W Wang, X Wang, Q Li… - Scientific …, 2017 - ui.adsabs.harvard.edu
Abstract< p id=" Par1"> Inspired by recent progress in developing gradient materials with
excellent performances, here we report a systematic finite-element based investigation to …
excellent performances, here we report a systematic finite-element based investigation to …
[PDF][PDF] Optimal stress and deformation partition in gradient materials for better strength and tensile ductility: A numerical investigation
Y Wang, G Yang, W Wang, X Wang, Q Li, Y Wei - academia.edu
Inspired by recent progress in developing gradient materials with excellent performances,
here we report a systematic finite-element based investigation to show how the strength and …
here we report a systematic finite-element based investigation to show how the strength and …