Metal DfAM eSeries: GPU cold plate optimization using CFD-driven lattice structures
video: Metal DfAM eSeries: GPU cold plate optimization using CFD-driven lattice structures
Published on August 11, 2020
Applications
Key Software Capabilities
- Lattice structures
Jean-Michel Hugo, TEMISTh
From a real thermal case, we will highlight the use of evolutive and regular Triply Periodic Minimal Surfaces (TPMS) for optimization of a heat exchanger produced by additive manufacturing. In this case, the air flow is non-regular on the surface of the heat exchanger due to a special design needed to reduce its global size. The solution for fixing this maldistribution is to use an evolutive structure for the heat transfer enhancement, flow repartition and AM supporting.
Key takeaways:
- Multiscale fluid and thermal design
- TPMS optimization
- DfAM of the heat exchanger with nTop
Related content
- VIDEO
When your design changes, how fast can you respond?
- CASE STUDY
Replacing spacecraft supermaterial with high-performance lattice
- VIDEO
Creating a computational design workflow to lightweight drone panels with nTop’s new ribbing tools
- WEBINAR
Accelerating Product Engineering with Computational Design
- VIDEO
nTop Siemens Energy at CDFAM NYC 2024
