This is kind of a big deal... With this new partnership, we will be able to "drive down" the target length scale of our models, and reduce model simplifications at the micro and nano levels! 🏎 #FEA Example: A typical #composites workflow starts at the #mesoscale, where layer-level insight is obtained through special layered solid elements. Perhaps now, we can get down to the #fiber level, and more accurately predict failure! 🌊 #CFD Example: A typical fluids model will require a User-Defined Feature (UDF) to be custom coded in to account for Nanoscale physics. Maybe now, we can resolve #multiscale phenomena through the GUI... Imagine adding #quantum physics to a system model! 🔭>🔍>🔬 If you're not looking at multiscale modeling, then now is the time!
Last week we announced our collaboration with Schrödinger to accelerate materials development with multiscale simulation. But what does this mean for teams that want to use Ansys and Schrödinger tools for ICME and multiscale simulation? Here are some resources to get you started: - Blog post with more details about what this brings to you: https://ansys.me/4blORSA - Whitepaper with technical details and use case: https://ansys.me/4auJfV1 #materials #icme #multiscale #simulation