World First Ultra High Barrier Renewable and Recyclable P ackaging L aunched
Plantic Technologies Ltd, an international supplier of performance biopolymers, has developed the first renewable and recyclable ultra-high barrier packaging format,
Plantic eco Plastic™ R.
Building on the success of Plantic eco Plastic™, the new material format combines PET and
Plantic biodegradable film to provide a packaging material which has ultra-high gas barrier
properties and is made from up to 60% renewable materials.
"Plantic eco Plastic™ R, unlike other barrier packaging formats, can be fully recycled with the PET recovered in the traditional recycling streams with Plantic’s barrier material dissolving and biodegrading in the process." says Brendan Morris, Plantic Technologies CEO. “
The combination of renewable materials with recyclable materials is unique in the packaging sector and brings together the best of both biopla stics and traditional materials
. Plantic eco Plastic™ R deliversfor the environment too with up to 60 % renewable materials coupled with recyclable PET content.
Unlike traditional barrier materials which are difficult to recycle due to the complete
mix of plastics used , Plantic eco Plastic™ R provides performance and sustainability/recyclability in a truly unique way.”
Plantic eco Plastic™ R trays and roll stock require no investment in new processing or packaging technology and can be directly substituted for existing materials into the supply chain . They are a drop-in replacement for a range of traditional plastics used in modified atmosphere and ultra-highbarrier packaging. The rigid trays and roll stock are offered in a
high clarity transparent form as well as a variety of colours and even multi-colour formats.
From an environmental point of view the impact of using renewable and recyclable Plantic eco Plastic™ R, compared to traditional barrier plastics are compelling, with every 1000 MT of Plastic saving:
Energy Savings: 5.4 million Kwh of energy or the equivalent energy needed to power 850 homes per year, and CO2
Savings: 2,700 MT of CO2 equivalent to planning 300,000 trees or removing 700 cars from the road