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Nicholson Labs
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  • Bioplastic
    • Tools and Materials
    • Tips and Tricks
    • Recipes (Refined Seaweed)
      • Carrageenan Ca01 (Solid, without Plasticizer)
      • Agar Ag01 (Solid, with Plasticizer)
      • Agar Ag02 (Film, with Plasticizer)
      • Agar Ag03 (Solid, with Plasticizer)
      • Agar Ag04 (Film, with Plasticizer)
      • Agar Ag05 (Solid, with Plasticizer)
      • Agar Ag06 (Solid, with Plasticizer)
      • Agar Ag07 (Foam, with Plasticizer)
      • Agar Ag08 (2-3mm Film, with Plasticizer)
      • Agar Ag09 (1.5mm Film, with Plasticizer)
      • Agar Ag10 (5mm Leather, with Plasticizer)
      • Agar Ag11 (1.5mm Film, with Plasticizer)
      • Agar Ag12 (4.5mm Film, with Plasticizer)
      • Agar Ag13 (Solid, without Plasticizer)
      • Agar Ag18 (Solid, without Plasticizer)
      • Agar Ag14 (2mm Film, without Plasticizer)
      • Agar Ag15 (3mm Film, with Plasticizer)
      • Agar Ag16 (Coating, without Plasticizer)
      • Agar Ag17 (?mm Film, with Plasticizer)
      • Agar Ag18 (4.5mm Film, with Plasticizer)
      • Agar Ag19 (Thin Film, with Plasticizer)
    • Recipes (Raw Seaweed)
      • CC01 Chrondus Crispus (Carrageenan)
      • LS01 Laminaria Saccharina (Fucodian or Alginic Acid)
      • CC02 Chrondus Crispus (Carrageenan)
      • CC03 Chrondus Crispus (Carrageenan)
      • CC04 Chrondus Crispus (Carrageenan)
      • CC05 Chrondus Crispus (Carrageenan)
      • CC06 Chrondus Crispus (Carrageenan)
    • Experiments with Bioplastic
      • Plasticizer vs. No Plasticizer
      • Freezing Bioplastic
      • Melting Bioplastic
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      • Cooking Bioplastic
      • Water Permeability
      • Hot vs. Room Temp Drying
      • Fully Dissolving Bioplastic
      • Bioplastic in a Dehydrator
      • 3D Printing Bioplastic
      • Biodegradability
    • Science Behind Bioplastic
    • More Recipes
    • Potential Uses
  • Carbon Capture
    • Before You Start...
    • Materials
    • Test Chambers
      • Test Chamber MK1
      • Test Chamber MK2
      • Test Chamber MK3
    • Sorbent Prep
      • Sorbent #1 Prep
      • Sorbent #2 Prep
    • Tests
      • Test #1 with Sorbent #1
      • Test #2 with Sorbent #1
      • Test #3 with Sorbent #1
      • Test #4 with Sorbent #1
      • Test #5 with Sorbent #1
      • Test #6 with Sorbent #1
      • Test #7 with Sorbent #1
      • Test #8 with Sorbent #2
    • Data Analysis/Quantification
    • How Does Carbon Capture Work?
    • Further Learning
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  1. Bioplastic
  2. Recipes (Refined Seaweed)

Agar Ag13 (Solid, without Plasticizer)

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Last updated 1 year ago

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^ The bioplastic is the little round thing in the straw

Ingredients:

  • Water (50 mL)

  • Agar agar powder (3.5 g)

Procedure:

  • Mix all the ingredients into a pan or pot

  • Heat up all the ingredients to 85-90 C on the stove

  • Mix thoroughly

  • Lower heat if bubbles are forming on the bottom of the pan

  • Take off heat after about 4 minutes of stirring or until the agar is fully dissolved (the solution is at least 85 C and thicker than when started, almost syrupy)

  • Cast into a straw

  • After about 15 minutes or when the bioplastic is set, carefully take out the bioplastic from the straw

  • Chop into pellets or keep as a rod

  • Let dry for a few days

  • Optional: after it dries and has shrunk, put it into a waffle maker to remelt it, and then (once it has cooled down a bit) mold it with your hands into the desired shape. This shape should not shrink again, as you already let it dry earlier, so there is no more moisture to escape.

  • Done!

Properties:

  • Before drying: thick liquid

  • During drying: thick jello

  • After drying: pretty hard

Notes:

  • This stuff shrinks a lot! (7.5mm to 3mm in thickness, which is an 84 percent decrease in size)

  • This is a pretty good recipe for making hard stuff

Images:

Rev2:

I cast the same recipe into The Tube this time. Unfortunately, since the tube has a larger diameter, the bioplastic also had a larger diameter, meaning that I couldn't push it through my modified extruder, so I couldn't make any filament. Next time, I'll find a smaller tube and use that. This did manage to shrink though, with a whopping 93% decrease in size.

Images: