Gallery
The following images are made available by LEAP 71 for your use under the Creative Commons CC BY-SA license.
All objects are created with PicoGK, our open-source framework for Computational Engineering.
3D-printed manifold (CC BY-SA)
A manifold created using a Computational Engineering Model written by LEAP 71.
PicoGK screenshot of a heat exchanger (CC BY-SA)
Screenshot of the PicoGK viewer showing a heat exchanger created using a Computational Engineering Model written by LEAP 71. The source code for this model is available as open-source on the LEAP 71 Github.
3D-printed impellers created by LEAP 71 (CC BY-SA)
Impellers created using a Computational Engineering Model written by LEAP 71.
3D-printed electric motor made with PicoGK (CC BY-SA)
Electric motor prototype created using a Computational Engineering Model written by LEAP 71. The motor is designed to be manufactured using the experimental multimaterial metal 3d printing process created by the Fraunhofer IGCV. The motor was created in collaboration with Dubai Future Labs.
3D-printed heat exchanger (CC BY-SA)
Cut through a heat exchanger created using a Computational Engineering Model written by LEAP 71.
3D-printed impeller created with Computational Engineering (CC BY-SA)
Impellers created using a Computational Engineering Model written by LEAP 71.
Top view of a 3D-printed heat exchanger built using Computational Engineering (CC BY-SA)
Transparent view of a heat exchanger created using a Computational Engineering Model written by LEAP 71.
3D-printed manifold created on PicoGK (CC BY-SA)
A manifold created using a Computational Engineering Model written by LEAP 71.
Rocket engine components designed through Computational Engineering (CC BY-SA)
Rocket engine components created by RP/CEM, a Computational Engineering Model for space propulsion written by LEAP 71.
3D-printed rocket engine designed by LEAP 71 (CC BY-SA)
Rocket engine created by RP/CEM, a Computational Engineering Model for space propulsion written by LEAP 71.
Impellers created from the same Computational Engineering Model (CC BY-SA)
Impellers created using a Computational Engineering Model written by LEAP 71.
3D-printed heat exchanger designed by LEAP 71 (CC BY-SA)
Heat exchanger created using a Computational Engineering Model written by LEAP 71.
3D-printed manifold built on PicoGK (CC BY-SA)
A manifold created using a Computational Engineering Model written by LEAP 71.
3D-printed heat exchanger (CC BY-SA)
Cut through a heat exchanger created using a Computational Engineering Model written by LEAP 71.
Fluid flow inside a 3D-printed heat exchanger built on PicoGK (CC BY-SA)
Schematical view of a heat exchanger created using a Computational Engineering Model written by LEAP 71. The source code for this model is available as open-source on the LEAP 71 Github.
Screenshot of the generation sequence of a heat exchanger built on PicoGK (CC BY-SA)
Generation sequence in the PicoGK viewer of a heat exchanger created using a Computational Engineering Model written by LEAP 71. The source code for this model is available as open-source on the LEAP 71 Github.
3D-printed manifold built on PicoGK (CC BY-SA)
A manifold created using a Computational Engineering Model written by LEAP 71.
3D-printed heat exchanger open-sourced by LEAP 71 (CC BY-SA)
Heat exchanger created using a Computational Engineering Model written by LEAP 71. The source code for this model is available as open-source on the LEAP 71 Github.
Cut through a 3D-printed heat exchanger designed by LEAP 71 (CC BY-SA)
Cut through a heat exchanger created using a Computational Engineering Model written by LEAP 71. The source code for this model is available as open-source on the LEAP 71 Github.
Impeller variants created by Computational Engineering on PicoGK (CC BY-SA)
Impellers created using a Computational Engineering Model written by LEAP 71.
3D-printed spherical reluctance motor (CC BY-SA)
3D printed spherical reluctance electric motor concept created using a Computational Engineering Model written by LEAP 71. This motor requires a multi-material 3D printer to be produced.
3D-printed injector for a rocket engine (CC BY-SA)
Coaxial swirl rocket combustion chamber injector head, created by RP/CEM a Computational Engineering Model for space propulsion systems written by LEAP 71.
3D-printed heat exchanger built on PicoGK (CC BY-SA)
Outer shell of a heat exchanger created using a Computational Engineering Model written by LEAP 71. The source code for this model is available as open-source on the LEAP 71 Github.
3D-printed pipe heat exchanger built by a Computational Engineering Model (CC BY-SA)
Cut through a heat exchanger created using a Computational Engineering Model written by LEAP 71.
3D-printed dual metal electric motor stator (CC BY-SA)
3D printed electric motor stator prototype created using a Computational Engineering Model written by LEAP 71, held up by Josefine Lissner author of the engineering model. The motor was manufactured in steel and copper, using the experimental multimaterial metal 3D printing process created by the Fraunhofer IGCV on a Nikon SLM printer. The motor was created in collaboration with Dubai Future Labs.
Cut through a 3D-printed heat exchanger built on PicoGK (CC BY-SA)
Cut through a heat exchanger created using a Computational Engineering Model written by LEAP 71. The source code for this model is available as open-source on the LEAP 71 Github.