Photo by V. Miller

July 27, 2005

Biodegradable Polymers

Biodegradable Polymers and Their Composites
Pinaki Bose, 12, Fort Worth, Texas
Finalist, Discovery Channel Young Scientist Challenge, 2004

Project background: At an aquarium, Pinaki heard about the dangers plastics pose to wildlife. He was delighted to see a dolphin grab a plastic bottle and pass it to a sea lion, who tossed it into a recycling bin. He decided to search for an alternative to conventional plastics. He contacted several experts who told him about biodegradable polymers.

Tactics and results: Pinaki discovered that the high cost of biodegradable plastics kept them from competing in the market. He decided to try to make a less expensive version of the polymer polycaprolactone, made from the milk sugar lactose, by reinforcing it with sawdust—a cheap, renewable resource. In a series of experiments, Pinaki mixed molten polycaprolactone with various proportions of fine and coarse sawdust. He shaped the resulting composites via standard plastic-working techniques such as warm rolling, compression molding, and injection molding.

Photo by V. Miller

Pinaki discovered that one composite, with 20 percent sawdust, was stronger than pure polycaprolactone. All of the composites began to degrade after two months of exposure to the environment.

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