DESIGNED FOR MINIMAL IMPACT
DETAILED INFO BELOW
MADE FROM RENEWABLE PLANTS & PBAT
PARTIALLY CARBON NEUTRAL . SOME WIND & RENEWABLE ENERGY
HOME (& COMMERCIALLY) COMPOSTABLE
WATERPROOF . TOUGH . FLEXIBLE/SOME STRETCH . TEAR RESISTANT . STICKABLE . WRITABLE . PRINTABLE . RE-USABLE
comPOST Packs are made from totally biodegradable and compostable materials; corn starch, PLA (synthesised from corn) and PBAT (Polybutyrate Adipate Terephthalate). PLA (Polylactide) is a bio-based, biodegradable material made from renewable plant material (starches such as corn husks, rice straw and wheat straw).
While the materials used to form comPOST Packs are biodegradable and compostable, they are not however 100% renewable as the PBAT component of the packs is made from petroleum-based materials. We are limited at the moment by the availability of suitable, sustainable raw materials that deliver the barrier and performance properties we need but are always testing resins made from an even greater amount of plant-based material – exciting times!
This combination of materials represents a 60% reduction in CO2 emissions compared to traditional plastics, is non-toxic and contains no Phthalate or Bisphenol A (BPA).
The inputs to our products are certified free of GMO material
The raw materials used to make comPOST Packs are produced in both America and China.
The PLA is made in America from field corn already grown for many industrial and functional end-uses. This company uses less than 1/20th of 1% (0.05%) of the annual global corn crop today, so there’s little to no impact on food prices or supply. These plant sources are renewed annually as they are regrown. They are also committed to diversifying how and what their products are made from, and to using the most abundant, locally available, and sustainable source of biobased carbon possible. In the future it is likely to be sugars from bagasse, wood chips, switch grass or straw and eventually, algae. Producing PLA uses 65% less energy than conventional plastics, according to independent analysis. It also generates 68% fewer greenhouse gases and contains no toxins.
- Some stretch
- Tough & Durable
- Tear resistant
Limited Shelflife: To ensure maximum longevity, comPOST Packs should be stored in a dark, dry place. If stored correctly, they will be strong enough to send parcels around the world for at least 9 months, if not, their strength will be compromised.
The most sustainable option for end users once finished with a comPOST Pack is to put it in with their food scraps and garden waste. They will break down within months* in a compost environment in a non-toxic process. Yes, they’re fine in worm farms and will be broken down in a bokashi too.
The materials we make our comPOST Packs from are certified AS 5810-2010 for Home Composting, meaning they will be completely degraded by microorganisms in the natural world under compost conditions. Ultimately this generates carbon dioxide and water and does not pollute the environment.
*The certification requirements are for 95% degradation within 180 days, however we know ours break down way quicker than that
Well, that will depend on the conditions they’re in. In a ‘standard’ home compost, they have been certified (AS5810-2010) to biodegrade within 180 days, i.e.. approx 6 months. Under commercial composting conditions, it would happen much faster, and as litter (e.g. under a tree) it would happen slower, but it will happen. The Australian Standard is one of the most rigorous in the world and includes a worm toxicity test which means that our comPOST Packs are safe to be eaten by the little, pink wriggly guys. follow @xnxxme.com