- These are not 'lattices' -
Meshagon(tm) meta and hyper-structures are a totally unique new kind of structure; topologically conforming and fully computationally generated; much different than 'lattices' which tend to be weak in shear (or otherwise) and often cannot conform to complex geometries.
Our new Mgons-Hgons can be isotropic, isotropic/symmetric and locally oriented, with all that implies. They are 'true' metastructures, in that we can iterate (see 1min video below) to enable unprecedented density and structural optimization control (domestic and now international P-pending 2018-19). Work is ongoing improving the meta-structure FEA implementations enabling new GPU and Machine Learning algorithms.
The best way to view and understand our structures is in 3D+.
Please visit below our new Experimental 3D+ web-portals and video intros:
Meshagon(tm) meta and hyper-structures are a totally unique new kind of structure; topologically conforming and fully computationally generated; much different than 'lattices' which tend to be weak in shear (or otherwise) and often cannot conform to complex geometries.
Our new Mgons-Hgons can be isotropic, isotropic/symmetric and locally oriented, with all that implies. They are 'true' metastructures, in that we can iterate (see 1min video below) to enable unprecedented density and structural optimization control (domestic and now international P-pending 2018-19). Work is ongoing improving the meta-structure FEA implementations enabling new GPU and Machine Learning algorithms.
The best way to view and understand our structures is in 3D+.
Please visit below our new Experimental 3D+ web-portals and video intros:
Important note: our new 3D+ portals (below) can take more time to load than a typical webpage
and might appear 'stuck' at 100%, but it's not. Please wait 20-30 sec to load.
and might appear 'stuck' at 100%, but it's not. Please wait 20-30 sec to load.
We can now generate and 3D print unique custom Mgon structures from most any CAD-STL component.
Fully AM hybrid multi-materials; controlled density-porosity-fibers; complex EM passive-active vibration control
(e.g. copper-piezo) -- programmable transition control, much more.
Fully AM hybrid multi-materials; controlled density-porosity-fibers; complex EM passive-active vibration control
(e.g. copper-piezo) -- programmable transition control, much more.
CONTACT US FOR A TECHNICAL DEMONSTRATION
and/or consultation for your challenging structure/project.
Email: [email protected] - for IP/Investor/Licensing and any questions.
Note, this is not a 'dummy' email. We respond.