With the #cherryblossoms in full bloom while we are visiting Japan, we couldn’t resist posting a #quasicrystal #sakura edition.

Industrial #3dprinting enables us to build electric motors that are significantly more capable than conventional ones. Our #ComputationalEngineering Model for electric actuation EA/CEM can generate highly sophisticated motor geometries flexibly and automatically.

We #opensourced the #ComputationalEngineering Model for this heat exchanger a while ago. Check it out on our GitHub.

#eidmubarak to all our friends in the #uae. Islamic scholars created the patterns that led to the discovery of #quasicrystals - let’s harness the power of these structures for #ComputationalEngineering.

Want to use aperiodic tiling and quasi-crystalline structures for engineering? We just released an #opensource library for this on our #github

Big thank you to @mimotechnik for this beautiful #fdm #multimaterial print (@bambulab_official) of our spherical electric motor prototype. Built through #computationalengineering.

Let’s harness the interesting properties of #quasicrystals for engineering structures.

Extended RP/CEM family picture. The tiny 3.5kN engine is the newest output of our algorithm. Looking forward to a hot fire soon. #ComputationalEngineering

#ComputationalEngineering Models easily create complex piping systems and manifolds and can reroute and reconfigure them in seconds when inputs change.

We like to explore new #spacepropulsion systems such as #aerospike and #rde - many of these designs require a #ComputationalEngineering approach to be feasible

Heat exchangers are critical components in many industries. We are building a very broad #ComputationalEngineering Model for many different types and applications.

Our #computationalengineering model for space propulsion in action.

We are very excited to announce our collaboration with @solideonusa on the production of large-scale space systems and infrastructure. @big_seun_

Let’s print some #aluminum #heatexchangers

A touch of color.

Excited to announce our collaboration with @mimotechnik and Astro Test Labs to produce fully qualified metal aerospace parts in the US.

Here is a cut through a small #coaxialswirl injector head, optimized for liquid oxygen and isopropanol - designed by our #ComputationalEngineering Model for space #propulsion, RP/CEM.

One of the outputs of our #ComputationalEngineering Model for #turbomachinery components.

#heatexchanger with a twist generated by our #ComputationalEngineering model (CEM)

We are working on new concepts for liquid/air #heatexchangers #ComputationalEngineering with @picogk

Novel types of #electricmotors can take full advantage of new manufacturing technologies like #3dprinting - if you design them using #ComputationalEngineering

Many connectors. The top of small injector heads can get a little crowded with all the inlet pipes, instrumentation ports and all the manifolds and volutes that distribute it all. Our #ComputationalEngineering Model for space propulsion RP/CEM makes sure everything is routed correctly within the physical constraints.

#healthcheck CT scan of one of our heat exchangers - printed in copper by @aconity3d and scanned @visiconsult

This is a three-segmented coaxial swirl injector head generated by our #computationalengineering model for #space #propulsion systems RP/CEM

Made with @picogk

#aerospike

All of our #ComputationalEngineering Models are based on @picogk our #opensource geometry framework. Here is the design for a novel #electricmotor

A transparent view through a #heatexchanger generated by one of our #computationalengineering models

#madetomeasure - Our #ComputationalEngineering Model for #spacepropulsion, RP/CEM can automatically add dry and wet instrumentation ports.

#manifolds automatically generated in seconds using #ComputationalEngineering on @picogk our #opensource tech stack

#3dprinted coaxial swirl injector head, generated by RP/CEM, our #ComputationalEngineering Model for space propulsion.

2023 was again the hottest year on record. Let’s build #efficient #heatexchangers using #computationalengineering to reduce the CO2 impact of cooling the world.

Alien manifolds. #ComputationalEngineering @picogk

#3dprinted #electricmotor stator - printed with the @fraunhofer.igcv #multimaterial #metal printing process on @nikonslmsolutions - developed in collaboration with @dubaifuture labs.

#ctscan through one of our heat exchangers created through #ComputationalEngineering printed by @aconity3d in copper and scanned by @visiconsult

Family picture - three variants of rocket engines generated by RP/CEM our #ComputationalEngineering Model for space propulsion systems.