top of page

Midsole Concept: TPMS Gyroid

​

This model deals with a Triply Periodic Minimal Surface (TPMS)

Put simply, these geometries are crystalline structures

that are repeated in three dimensions | triply periodic

and have a minimized surface area

spanning the piece boundary | minimal surface

​

All parts were modeled using Rhino,

lattice integration was performed through nTopology,

and design edits were created in Procreate

​

​

IMG_0321_edited.jpg

Integrated Midsole

​

Higher thickness density at regions of

highest pressure during running,

optimizing cost and production time

IMG_0568.PNG
a_edited_edited.png
d_edited_edited.jpg
c_edited.jpg
Unit%20Cell_edited.jpg
IMG_0569.PNG
IMG_0577.PNG
Screen Shot 2020-04-09 at 11.27.48 AM.pn
Screen Shot 2020-04-09 at 11.27.24 AM.pn
2%3A2%20exp_edited.jpg
1:2 exp.png
IMG_0310_edited.jpg
IMG_0578.PNG
IMG_0571.PNG
1_edited.jpg
3.png
Screen%20Shot%202020-04-09%20at%2010.39_

Midsole Concept: Voronoi Tetrahedra

​

This model uses randomly spaced points to

generate a lattice structure formed of tetrahedra cells

These random points could be replaced with actual data points

gathered from force plates to adjust the structure in accord with

regions of higher demand during running

New%20Tet%20Unit_edited.jpg
IMG_0580.PNG
IMG_0579.PNG
Screen Shot 2020-04-07 at 6.50.42 PM.png
Screen Shot 2020-04-07 at 6.50.52 PM.png
Screen Shot 2020-04-07 at 6.51.04 PM.png
Screen Shot 2020-04-07 at 6.51.18 PM.png

Midsole Concept: Strut-based Lattice

​

This model deals with a conventional strut-based lattice geometry

These structures are formed simply by nodes and beams of

coherent connectivity between unit cells

They exhibit high impact energy absorption along with

promising energy return properties all while

promoting low mass and infinite design freedom

IMG_0305_edited.jpg
IMG_0576.PNG
IMG_0575.PNG
4.png
1.png
5.png
6.png
3.png
2.png
7_edited.jpg
bottom of page