This is a placeholder for R&D into Support Structures for 3D Printing.
Espcially SLA (Stereolithography ) 3D Printing, but not limited to that.
An approach informed by:
- Mathematical modeling (Shape Geometry, etc)
- Mechanical engineering, Materials engineering and Physics ( CFD, etc)
- Existing practical techniques ( in 3D printing software, or custom stripts used by community) and existing research.
This has some elements of Topological Optimisation, but T.O. belongs to a separate R&D thread.
Closely related to #34 ( shape modelling for Slicing)
This is a placeholder for R&D into Support Structures for 3D Printing.
Espcially SLA (Stereolithography ) 3D Printing, but not limited to that.
An approach informed by:
* Mathematical modeling (Shape Geometry, etc)
* Mechanical engineering, Materials engineering and Physics ( CFD, etc)
* Existing practical techniques ( in 3D printing software, or custom stripts used by community) and existing research.
This has some elements of Topological Optimisation, but T.O. belongs to a separate R&D thread.
Closely related to #34 ( shape modelling for Slicing)