Computational Metallurgy: Grain Boundaries, Diffusion, and Surface Reactivity Webinar

December 25, 2016

Couldn't attend the Computational Metallurgy: Grain Boundaries, Diffusion, and Surface Reactivity webinar? We have you covered. Watch the webinar recording below. 

 

Atomic-scale simulations provide unique insight and property data, which are critical for understanding and solving metallurgical problems.

 

To this end, the MedeA software environment is built on leading computational approaches including VASP and LAMMPS, which are fully integrated together with comprehensive structural databases and a range of tools for constructing and analyzing atomistic models. An important feature is the ability to perform such calculations in high-throughput mode. 

 

The power of these capabilities will be demonstrated and explained in this webinar for (i) the effect of alloying elements and impurities on the strength of grain boundaries, (ii) the prediction of mechanical properties, (iii) the diffusion of hydrogen in metals, (iv) the nucleation of dislocation loops, and (v) molecular reactions on metal surfaces

 

 

 

 

 

Share the recording link with your colleagues:

https://attendee.gotowebinar.com/rt/5282699653395042819

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