less energy, less water. the big benefit here is that i can recycle this along with my paper waste. and even if i didn t, it would just take several years to break down instead of thousands of years. i can also feel that the bag is stronger than paper, albeit not quite as strong as plastic. clearly, though, this won t be able to replace all kinds of plastic. but another finnish alternative does have the tough, mouldable qualities needed for cosmetics or food. it s almost impossible to guess that these aren t plastic. it is only close up that you can see its natural origins, and that is wood combine with natural binders and dyes. so our material biodegrades almost exactly the same time period as the same thickness of wood. microbes are able to eat our material and then our material biodegrades into c02, water and biomass.
similar to plastic. this is paptic, twice as strong as paper, but 50% thinner and water resistant. it can replace plastic bags, packaging for online shopping and food packets that don t need to be airtight. all thanks to some novel whipping tech. we can replace two thirds of water with air. the foam enables us to disperse the fibres much more efficiently and that helps us to simplify the process. a smaller process consumes less energy, less water. the big benefit here is that i can recycle this along with my paper waste. and even if i didn t, it would just take several years to break down instead of thousands of years. i can also feel that the bag is stronger than paper, albeit not quite as strong as plastic. clearly, though, this won t be able to replace all kinds of plastic. but another finnish alternative
it would just take several years to break down instead of thousands of years. i can also feel that the bag is stronger than paper, albeit not quite as strong as plastic. clearly, though, this won t be able to replace all kinds of plastic. but another finnish alternative does have the tough, mouldable qualities needed for cosmetics or food. it s almost impossible to guess that these aren t plastic. it is only close up that you can see its natural origins, and that is wood combine with natural binders and dyes. so our material biodegrades almost exactly the same time period as the same thickness of wood. microbes are able to eat our material and then our material biodegrades into c02, water and biomass. ingredients can be put through existing moulding machines. the material would struggle with housing hazardous chemicals though, and its end of life
efficiently and that helps us to simplify the process. a smaller process consumes less energy, less water. the big benefit here is that i can recycle this along with my paper waste. and even if i didn t, it would just take several years to break down instead of thousands of years. i can also feel that the bag is stronger than paper, albeit not quite as strong as plastic. clearly, though, this won t be able to replace all kinds of plastic. but another finnish alternative does have the tough, mouldable qualities needed for cosmetics or food. it s almost impossible to guess that these aren t plastic. it is only close up that you can see its natural origins, and that is wood combine with natural binders and dyes. so our material biodegrades almost exactly the same time period as the same thickness of wood. microbes are able to eat our material and then our material
a smaller process consumes less energy, less water. the big benefit here is that i can recycle this along with my paper waste. and even if i didn t, it would just take several years to break down instead of thousands of years. i can also feel that the bag is stronger than paper, albeit not quite as strong as plastic. clearly, though, this won t be able to replace all kinds of plastic. but another finnish alternative does have the tough, mouldable qualities needed for cosmetics or food. it s almost impossible to guess that these aren t plastic. it is only close up that you can see its natural origins, and that is wood combined with natural binders and dyes. so our material biodegrades almost exactly the same time period as the same thickness of wood. microbes are able to eat our material and then our material biodegrades into c02, water and biomass. ingredients can be put