Advanced BioCarbon 3D, #madeatMIDAS Corporate Member and co-locator here at MIDAS marries environmental sustainability and innovation with their carbon negative bioplastics.
We are very proud of the accomplishments achieved by the growing list of Corporate Members. It’s inspiring to see each of them fulfilling their innovation and business aspirations with the help of the range of resources available in our MIT-certified Fab Lab.
A fruitful partnership we’ve excitedly been witness to between ABC3D and Selkirk College Applied Research Innovation Centre and recipients of a research grant through the SMARTS Program. SMARTS engages in research resulting in the development of innovative products or services, with the goal of expanding the offerings that local businesses can bring to market.
Earlier this year, Rossland’s Darrel Fry, CEO of Advanced BioCarbon 3D, and Jason Taylor of Selkirk College were awarded $300,000 through the Innovate BC Ignite Program to develop a new type of 3D-printing filament. The research project is focused on creating a new 3D printing filament to address the pressing issue of excessive plastics in 3D printing and manufacturing.
The $300,000 awarded to the project has allowed ABC3D to buy equipment and bring on employees integral to the continuing research and development.
The filament is made from 100% biodegradable, engineering grade plastics and carbon fibre derived from lignin, the natural glue-like fibres found inside of wood.
Well beyond plastic: carbon fibre. Engineering grade AND biodegradable.
ABC3D is an advanced materials company specializing in bi0degradable plastics and carbon fibres and has taken up residence in the MIDAS Fab Lab to expand its research, development, and production.
Looking to come up with a solution for the over-abundance of plastics used, and inevitably, polluting the earth on such an incredible scale, Advanced BioCarbon 3D creates a product that is, remarkably, engineering grade and 100% biodegradable.
Safe for people, animals, and nature, the ABC3D plastics and carbon fibre are created using a closed loop system with no waste. The innovative startup’s beachhead into the industry is biodegradable filaments, in production at MIDAS, extracting resins from wood and mixing them with other polymers to make plastic.
The goal of the business is all at once ambitious and noble. According to Mr. Fry, “We’ve been coming it at it through demand management, trying to promote less use, re-use, recycling and the like. As we all know of course trying to plug the pipe at the end never truly works. Moving to a supply management where rather than using less plastic we aim to use better plastic would seem to be a better route.”
While ABC3D is producing products in the 3D printing filament market, with their engineered grade quality bioplastics, previously unavailable, the company is seeing the huge potential to impact other markets. Specifically, Fry has his eye fixed on carbon fibre filaments to be used in industries such as automotive, airline, solar energy, housebuilding, batteries, and more.
“I don’t see how we can continue down the path of conventional plastics,” said Fry. “The planet can no longer sustain the amount of plastic being put into the oceans and across our landscape, nor can it sustain the carbon emissions from petroleum products. Everyone knows we need to take action.
“Nature has been making (natural plastic) for three billion years, and disposing of it for three billion years. Nature already has in place the bacteria and decomposition team it needs to break down plastic that is made from wood.”
ABC3D has taken advantage of other funding opportunities to help develop his innovative products. Through the NRC Industrial Research Assistance Program (NRC IRAP) Youth Employment Program (YEP) and Youth-Green Program, on behalf of the Government of Canada’s Youth Employment Strategy (YES), the company has hired Ian, who is learning the R and D ropes; developing skills and getting the valuable training he needs to further his own professional development with the help of Advanced BioCarbon 3D.
Fry’s route to sustainability has begun with a blended 3D filament containing 40% of their proprietary wood product and 60% conventional plastic. The goal: subsequent iterations that lead to a truly environmentally sustainable 100% wood bioplastic.
Listen to the rest of this amazing story HERE.