Publisher/Vendor/Repository and License Typeĭassault Systemes, Commercial Usage Token UsageĪBAQUS software usage is monitored though a token-based license manager. (link sends e-mail) Access for Commercial UsersĬontact OSC Help for getting access to SOFTWARE if you are a commercial user. In order to obtain validation, please contact OSC Help for further instruction. The use of ABAQUS for academic purposes requires validation. Users from additional degree granting academic institutions may request to be added to this list per a cost by contacting OSC Help. Only users who are faculty, research staff or students at the following institutions are permitted to utilized OSC's license: OSC's ABAQUS license can only be used for educational, institutional, instructional, and/or research purposes. Feel free to contact OSC Help if you need other versions for your work. Importantly, the strong nanostructure layer indeed becomes ductile (enables further work hardening) due to the activation of hierarchical nanotwinning and dislocation activity.You can use module spider abaqus to view available modules for a given machine. The inter-layer microstructure inhomogeneity introduces extra shear constraints from the coarse-grained substrate, which stabilizes SBs and improves the stress of non-strain banding zone, thereby suppressing the early catastrophic strain localization. Finite element analysis reveals that it is the intra-layer microstructure inhomogeneity which enables dispersed SBs nucleation from the mechanical weak sites. In the tensile deformation, strain examinations find that the nanostructure layer experiences significant strain delocalization by activating dispersed stable strain bands (SBs) and promoting the deformation of non-strain banding zone. A nanostructured CrMnFeCoNi high entropy alloy layer supported by coarse-grained substrate (in gradient architecture) is taken as an example. Here we explore the effects of microstructure inhomogeneity on the plastic behavior of nanostructured layer. How to suppress strain localization in tensioned nanograined layer and make it ductile? This remains a great challenge.
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