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A potential solution to the world’s plastic pollution crisis has recently been unveiled at the London Design Festival. Crafting Plastics Studio, established by design duo Vlasta Kubušová and Miroslav Král, created the all-natural alternative, which is made from corn starch, sugar and cooking oil. According to the team, who researches and constructs cutting-edge materials for their avant-garde designs, Nuatan has the possibility to “replace all the packaging we know,” because it is so safe that even fish can eat it.
a glance, Nuatan may seem elementary in its composition, however, Kubušová and Král spent six years conceiving the bioplastic with material scientists at the Slovak University of Technology. This is time well spent, considering that the composition is enduring, rapidly degradable and safe to ingest. More durable than previous bioplastic samples, the material can last up to 15 years and withstands temperatures over 212 degrees Fahrenheit (100 degrees Celsius).
“For the first time, a fully bio-based, biodegradable material can be considered as a competitor in terms of properties and processability,” the designers explained. Nuatan’s applications are limitless, because the poly-blend is not restricted to blow-forming like traditional plastics are. Crafting Plastics Studio designed the material to succeed in any production chain. “We’re using it for 3D printing, injection molding and other plastic manufacturing technologies,” the team said.
Approval of a food-safety certificate would mean that Nuatan could realistically replace all packaging, because the material is biodegradable. Industrial composters would have no trouble breaking down the substance. The possible solution to replacing single-use plastics such as plastic bags, plates, straws, water bottles, cutlery and others is found in the patented combination of naturally derived Polyacid Acid (PLA) from corn starch with Polyhydroxybutyrate (PHB), which is corn starch that has been processed by microorganisms.
Because Nuatan’s composition is not formulated from carbon-based raw materials, “it degrades inside the human body or animals,” Kubušová explained. This biocompatible feature, along with Nuatan’s durability, means that it can be used in nearly everything except heavy-duty situations, such as vehicle construction. At a lower energy and resource consumption value than traditional petroleum-based plastics, Nuatan ticks all the boxes regarding environmental sustainability and climate change relief.
Faced with a high cost of production, there is still some time before the new bioplastic will see widespread use. But increased demand could help drive the cost of materials down to affordable levels.
“We are hoping to find collaborators who want to include it in the right products, and not combine it with other materials, so it’s a mono-material,” Kubušová said. Faithful to their ethical and capable inception, the team made a very valid point — “If we can find the right collaborators, it can change things a lot.”