UW HCDE 598 — Digital Fabrication Assignment 6: Molding and Casting — TriangLego

TL;DR: Milled something, created a mold of said something, casted copies of the something using the mold.

Lego pieces are amazing — unfortunately, there are no individual triangular pieces with three connectors, so it might be interesting to come up with an interpretation of what said piece would be like, to then mill it out of wax, and create plaster copies of it.

I started working on potential ways to create a triangular piece, so spent quite a bit of time on exploring the sizing starting with a regular 2x2 piece.

OnShape sketch for a 2x2 lego brick

Extruded sketch for a 2x2 lego brick

Trying to play with a triangle shape

Maybe I need to chop the triangle with a hexagon to make it a truncated hexagon

Experimenting with the connector placement

After struggling a bit with the possible ways to make this fit an actual lego set, I decided to explore the internet to see other approaches (I realized there would be zero ROI if I spent any longer working on my own implementation).

There was a great model that might probably not fit a Lego set, but aligned nicely to the ideas I was exploring and would be perfect for this assignment in SketchUp’s 3D Warehouse

After stealing downloading the SketchUp file, I converted to STL, and imported into Fusion 360.

STL for the triangular lego imported into Fusion 360

I started to play around with adding a stock directly in Fusion 360 that would represent the machinable wax

Model showing the lego inside to the machinable wax stock

I started simulating the process of milling the stock to get the part

Model showing the lego inside to the machinable wax stock

https://malvenko.github.io/HCDE598SP19/A6-assets/A6_SIM.mp4

With the toolpaths ready, I exported to GCode

I then realized that the stock was unnecessarily huge, so I’d deal with it directly on Bantam Tools. I adjusted the stock to be slightly larger than the Lego object.

WAX TIME!

https://giphy.com/gifs/art-week-notyouraverage-j9ayvgTlphafe

At this point several things happened:

  1. I had to get machinable wax at the CoMotiuon space at UW.

In the time it took to mill other students’ projects, I had time to tweak the STL piece and place it inside a brick of wax to make it easier to create the mold (just pour the silicone mix, and done!).

A different perspective

Setting up the mill after gluing the wax to the wooden base

Checking the paths one last time before pressing go…

Milling underway!

https://malvenko.github.io/HCDE598SP19/A6-assets/A6_MILL.mp4

Post-milling result

Prepping up the OMOO to create a mold out of the milled wax

Pouring the OMOO on the mold nice and slow

https://malvenko.github.io/HCDE598SP19/A6-assets/A6_POUR.mp4

After the pour

Six hours (and a bit) later…

Later, I poured in some plaster of Paris into the mold

The first batch of pieces after being removed from the mold. They need to rest for 24 hours to cure properly.

Four pieces curing for 24 hours!

The final product!

Learnings/takeaways

  • Although milling is faster than 3D printing, it is quite consuming to deal with multiple file formats and programs.

Source files for the mold and pieces

Form + function = tech for humans. PM @Microsoft building the future of @Windows (fmr @Azure_Synapse , @MicrosoftDesign ). Nobody wins unless everybody wins.

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