Downloadable Model Files
![LEAP71_Manifold_FFF_15](https://i0.wp.com/leap71.com/wp-content/uploads/2024/05/LEAP71_Manifold_FFF_15.jpeg?resize=1080%2C608&ssl=1)
These 3D-printable files were generated using our Computational Engineering Models based on PicoGK.
Feel free to download and print. Give us a shoutout on LinkedIn or Instagram when you do.
The downloadable content is made available to you under the Creative Commons BY-SA license.
![500D86FF-9623-46AE-A561-65B9207E9171](https://i0.wp.com/leap71.com/wp-content/uploads/2024/06/500D86FF-9623-46AE-A561-65B9207E9171.jpg?resize=1080%2C608&ssl=1)
Liquid-liquid heat exchanger
This liquid-liquid heat exchanger with an intricate helical internal structure was created using a computational model which we open-sourced. You can check out the GitHub repository here. The model is optimized for metal Laser Powder Bed Fusion, but also prints well on resin- and filament-based 3D printers.
ZIP Archive (800 MB), STL print file expands to 2.2 GB
![D0EC9506-69A4-49BB-A4CE-6075A1A95C56](https://i0.wp.com/leap71.com/wp-content/uploads/2024/05/D0EC9506-69A4-49BB-A4CE-6075A1A95C56.jpg?resize=1080%2C608&ssl=1)
Manifolds for LPBF printing
These manifolds were generated on PicoGK by one of our Computational Engineering models. They are optimized for metal Laser Powder Bed Fusion Printers.
ZIP Archive (400 MB), 6 print files (STL)
![C280056C-8FC2-48EE-9463-B6625DA7E227](https://i0.wp.com/leap71.com/wp-content/uploads/2024/05/C280056C-8FC2-48EE-9463-B6625DA7E227.jpg?resize=1080%2C608&ssl=1)
Manifolds for FFF printing
These manifolds were generated on PicoGK by one of our Computational Engineering models. They are optimized for fused filament deposition printers.
Zip Archive (200MB), 3 print files (STL)
Turn up the volume for the sound of 20,000 horsepowers. The first liquid rocket engine made in @dubai - test fired this weekend in the UK. Created through @noyron.ai , our Large Computational Engineering Model. The first #AI designed rocket engine. 5kN, cryogenic Liquid Oxygen and Kerosene as propellants. #3dprinted from #copper. #ComputationalEngineering
Introducing Noyron - our Large Computational Engineering Model, which distills all the knowledge we have codified into rules and algorithms over the past year. Noyron allows us to build complex products, rooted in engineering logic, physics, and manufacturing experience. Noyron lies at the root of all our bespoke customer projects and forms the basis of more specialized #ComputationalEngineering Models for fields like space propulsion and electric mobility.
Turn up the volume for the sound of 20,000 horsepowers. The first liquid rocket engine made in @dubai - test fired this weekend in the UK. Created through @noyron.ai , our Large Computational Engineering Model. The first #AI designed rocket engine. 5kN, cryogenic Liquid Oxygen and Kerosene as propellants. #3dprinted from #copper. #ComputationalEngineering
Introducing Noyron - our Large Computational Engineering Model, which distills all the knowledge we have codified into rules and algorithms over the past year. Noyron allows us to build complex products, rooted in engineering logic, physics, and manufacturing experience. Noyron lies at the root of all our bespoke customer projects and forms the basis of more specialized #ComputationalEngineering Models for fields like space propulsion and electric mobility.
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