With today’s brand owners and manufacturers under fierce pressure to deliver cost-effective sustainability and End of Life Solutions (EOL) for the products they bring to market, Ecospan, LLC announces that it’s breaking new ground when it comes to delivering sustainable solutions to the plastics we use everyday. Already, much of the plastics found in your car, soda bottles, and your sneakers are no longer petroleum-based, as these manufactures have turned to bio-materials for a more sustainable solution. Now Ecospan has delivered break-through technology that opens the door for industrial product designers of commercial-grade durable goods to apply new uses for bioplastics where never possible before.
Ecospan, a global company that specializes in both the development of bio-based resins and the manufacturing of bio-based durable goods, has introduced BioFlow ™, which removes a number of barriers that have—until now—prevented industrial designers from incorporating sustainable bioplastics into their new product designs. With BioFlow ™, bioplastic materials are now available that meet or surpass petroleum-based plastics performance standards in several areas, including heat resistance and impact resistance—the two main drawbacks to date in developing durable goods products with bio-based materials.
Most notable, perhaps, is the company’s introduction of the first bioplastics living hinge, giving packaging designers a solution that has never before been possible with bioplastics. This innovation means that a wide range of consumer and industrial products-- from cosmetic cases to electrical junction boxes - can now be made with bioplastics, since living hinges are typically manufactured in an injection molding operation that creates all three parts at one time as a single part. BioFlow ™ materials are used to create everything from protective cases and packaging for high value electronics like handheld devices, mobile phones, GPS consoles and cameras to the actual products themselves, running the gamut from TV remotes and electronic housings to alarm clocks, desk phones, cable TV boxes, and much more.
“We are innovation partners with product designers and developers from start to finish,” said Scott Sanderson, Ecospan’s Senior Vice-president of Research and Development. “Providing whole solutions, Ecospan develops custom-designed bioresin blends to meet specific application and product performance requirements and partners with its clients from the industrial design phase, through the product development and manufacturing processes right to the delivery of the finished, manufactured products.”
BioFlow technology makes bioplastics a viable solution for industrial designers with other ‘firsts’, including:
- Exceptional melt flow characteristics, giving it the ability to duplicate intricate designs and textures on the surface of molds in the manufacturing process.
- High heat resistance
- Durability, impact resistance
- High gloss capabilities in addition to matte, texture, etc.
- Complete spectrum of colors
- Blending compatibility with other petroleum-free ingredients or with petroleum–based ingredients
- Limitless customizable formulizations
With over 20,000 square feet of R&D facilities in Exton, PA, and global production facilities, Ecospan has developed over 5,000 BioFlow plastics formulations over the past nine years that it uses to customize materials for product development applications and manufacturing.
For one global smart phone manufacturer, Ecospan has even incorporated more than 12 million bioplastic shipping containers into their reverse logistics operations for phones that are returned by consumers for repairs. The containers, unlike other sustainable options such as cardboard, can be reused multiple times and then reground and reused—all while saving the smart phone company in excess of $20-million a year.
“Ecospan is leading the way in taking bioplastics from a niche market and into the mainstream,” says Ecospan’s CEO, Greg Hoffman. “BioFlow technology provides new solutions across the supply chain for replacing or reducing petroleum-based plastics with sustainable, bio-based materials and a ‘cradle to cradle’, reuse and regrind model for keeping material resources in the value chain and out of landfills.”
For more information visit www.ecospan.com.