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WEEK 13 MOLDING AND CASTING

GROUP ASSIGNMENT:

In the lab, we have two types of silicone that have already passed their shelf life. We are waiting for the new batch to arrive, but the delivery is currently delayed. In the meantime, we will try using the old ones and see how it goes. We have: Smooth-On Smooth-Sil 940 and another unidentified tin-cure silicone with a 5% catalyst (labeled "katali7"—the label is difficult to read).

I created this mold witk Mayku FormBox MAYKU Later in my Individual assignment I’ll explain the process more detailed.

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Safety Data Sheet Review

1. Unknown Silicone (with "katali7" Catalyst)

  • Type: Likely a Tin-cure silicone rubber (condensation-cure)
  • Shelf life: extended!
  • Mix Ratio: Estimated 95A:5B by weight (based on labeling)
  • Handling: Less sensitive to contamination, faster to set
  • Observation: Part B (catalyst) comes in a small bottle; curing occurs rapidly after mixing
  • Limitations: Lacks detailed product documentation; not food-safe; shorter mold lifespan compared to platinum silicones

unA.jpg

unB.jpg

unC.jpg

2. Smooth-On Smooth-Sil 940 Smooth-Sil 940 Safety Data Sheet

  • Type: Platinum-cure silicone rubber (addition-cure)
  • Shelf life: extended!
  • Mix Ratio: 1A:1B ratio 1:10
  • Pot Life: ~30–40 minutes
  • Cure Time: ~24 hours at room temperature
  • Hardness: Shore A40
  • Tear Strength & Elongation: High tear resistance and flexibility
  • Features: Food-safe once cured, low shrinkage, great for detailed molds
  • Handling: Requires clean tools and surfaces, as contamination (especially with sulfur) may inhibit curing

The battery of my scale died so I had to improvise 🙂

sil.jpg

I think this silicon might not work at all, but let’s see.

silA.jpg

silB.jpg

silC.jpg

Test Casts

Both silicones should be de degassed to get rid of the bubbles. Since I don't have a chamber I used vibration of the polishing machine to shake the molds to bring some of the bubbles to the surface

I created sample casts using both silicones in identical test molds and in the top one I mixed rest of both of them together with no specific proportion to see what will happen.

casts.jpg

Key differences observed:

  • The unknown silicone cured quickly, resulting in a clean, flexible white cast. It was easy to demold, though some visible bubbles were present.
  • Smooth-Sil 940 mixed well, producing a smooth pinkish mixture (with Part B being a reddish liquid) and showed fewer bubbles during mixing. However, it did not cure even after 24 hours and remained liquid.
  • Both silicones were likely past their shelf life, which may have affected their performance, especially in the case of Smooth-Sil 940.
  • A mixture of the unknown silicone and Smooth-Sil 940 also failed to cure, which was expected, since Smooth-Sil itself did not harden at all.

INDIVIDUAL ASSIGNMENT:

MODEL

For my individual assignment I’ll be doing the button cover that didn’t work out in the week of 3D printing.

m1.jpg

m2.jpg

I created a new 3D printed model so I can use it with the Mayku Form Box I mentioned in the group assignment.

The paw shape is like inverted pyramid, which means the draft will be a problem. That’s why I divided it into smaller pieces that will be possible to slide out of the form

model.jpg

model2.jpg

model3.jpg

And lastly I created another piece that will make to hollow part of the cast.

model4.jpg

I started with printing the bottom part and I forgot to include the suction holes, so I needed to add them manually:

holes.jpg

holes2.jpg

The top part came out pretty nice.

printtop.jpg

You can see that parts are separated. I’ll still keep them attached for now. but later I will cut them off and keep them together like a kids puzzle.

MAYKU

The Mayku FormBox is a desktop vacuum former that creates molds and shapes using heat and vacuum. Here's a short step-by-step process:

  1. Place the material – Insert a thermoplastic sheet into the FormBox’s frame.
  2. Heat the sheet – Lower the frame over the built-in heater until the plastic becomes soft and pliable.
  3. Prepare the mold/object – Place the object you want to form over on the forming bed.
  4. Form the mold – Lower the softened sheet over the object and activate the vacuum; the sheet wraps tightly around the object.
  5. Cool and remove – Allow the plastic to cool, then lift and remove the newly formed mold.

Each sheet has their own properties so you just simply need to follow the instruction on the attached paper. You can always adjust settings by increasing heating time or heat level itself

maykubottom0.jpg

maykubottom1.jpg

maykubottom2.jpg

I was hoping the edges in the bottom will be more defined… Not even mentioning the groove I created in not marked at all. I decide to add more suction holes and increase the heat level to 5,5

moreholes.jpg

maykubottommoreholes.jpg

There’s a mini difference but nothing significant… I’ll try the other sheet:

maykutransparent.jpg

The effect is still not sharp. I’ll go extreme this time and instead of 1min and level 5 of heat I’ll do 2,5 min and level 6. Let’s see what happens

maykutransparent2.jpg

The sheet is stretching a lot…

maykutransparent2b.jpg

Fail :( and the edges are still not sharp, even with such melted sheet…

maykutransparent3.jpg

Apparently, you can’t reuse the sheet but I was curious to try it :D

maykutransparent4.jpg

Again wrinkcles and not much sharper then before…

maykutransparent5.jpg

Ok I think that’s enough of testing the bottom mold. Time for the top one:

maykutop.jpg

FINAL MOLD A

final1.jpg

The effect is still now what I wanted exactly. Maybe the square I created for easy placement of 2 molds together is not letting the plastic sheet stretch enough… I’ll cut it out:

cutout.jpg

FINAL MOLD B

final2.jpg

Non of the solution gave the effect that I really wanted, but I think the cast from the MOLD A should work for my Cat’s button project.

CAST FROM MOLD A

Here’s the final cast with the new silicon that we just got:

Silicon datasheet:

FILES

CAT’S PAW MODEL

MODELS FOR MAKING MOLDS

OUTSIDE:

INSIDE:

CHECKLIST:

Group assignment:

  • Review the safety data sheets for each of your molding and casting materials
  • Make and compare test casts with each of them
  • Compare printing vs milling molds

Individual assignment:

  • Design a mold around the process you'll be using, produce it with a smooth surface finish that does not show the production process, and use it to cast parts.

Learning outcomes:

  • Design appropriate objects within the limitations of your process
  • Demonstrate workflows used in mold design, construction and casting

Have you answered these questions?

  • Linked to the group assignment page and reflected on your individual page what you have learned
  • Reviewed the safety data sheets for each of your molding and casting materials, then made and compared test casts with each of them
  • Documented how you designed and created your 3D mold, including machine settings
  • Ensured your mold has smooth surface finish, that does not show the production process (by postprocessing if necessary)
  • Shown how you safely made your mold and cast the parts
  • Described problems and how you fixed them
  • Included your design files and ‘hero shot’ of the mold and the final object