ABOUT Meshify

Lattice structures ready for print

Meshify is a cloud-based design service, which converts a user uploaded solid CAD file into a 3D printable mesh-like lattice structure. You can download 3D-printer sliced files (or STLs) and request print quotes from online print providers through 3YOURMIND.

The intuitive web interface allows you to customize the lattice structure by adjusting parameters, such as rod thickness and rod length. You can also choose whether to mesh the volume or just the surface. The lattice structure can be combined with solid regions to create complex composite parts. For full design freedom, you can even upload your own lattice definition (see description here).

Below you can discover more on the different subscriptions.

Meshify Meshify

An intuitive lattice design tool

Meshify Basic is a simple but powerful tool to substitute parts of your solid component with a lattice structure. This allows you to easily remove excess material, thereby cutting print time and cost.

The procedure is quick and simple:

  1. Upload your CAD geometry
  2. Adjust the lattice parameters;
  3. Download the meshified part or order the print.

Signing up for the Meshify Basic plan, you can archive up to 50 projects, download your geometry files in either CLI or STL for local manufacturing, or order directly your printed part.

Meshify Basic is available at a monthly licensing system without a minimum term.

GE Jet Engine Bracket
Up to 50 active projects
Download print files
Order prints
Structural optimization
Customized functionality
Meshify Meshify

Try it out for free

Meshify is also available free of charge.

You can try out our lattice editor directly by choosing between one of the geometry examples available on our free trial.

If you are interested in working on your own geometry, you can freely create an account. The Meshify Free plan allows you to archive up to 5 projects, as well as directly order prints through our partner 3YOURMIND.

Up to 5 active projects
Download print files
Order prints
Structural optimization
Customized functionality