This reduction in energy consumption can not only cut costs, but it can also lower the carbon footprint of the manufacturing process. Reduced Carbon Footprint: Using recycle-enabling process aids can lower the energy consumption of the bottle-blowing process, thereby reducing the carbon footprint of the entire packaging lifecycle.

Some of the changes that will come into force as a result include the expansion of the deposit system to all non-returnable plastic beverage bottles, with non-carbonated fruit juice packaging joining carbonated drinks packaging in the scheme. SmartHeat RHC also allows for a reduction in energy during the bottle blowing process, helping to reduce carbon emissions.

This reduction in energy consumption can not only cut costs, but it can also lower the carbon footprint of the manufacturing process. Reduced Carbon Footprint: Using recycle-enabling process aids can lower the energy consumption of the bottle-blowing process, thereby reducing the carbon footprint of the entire packaging lifecycle.

Some of the changes that will come into force as a result include the expansion of the deposit system to all non-returnable plastic beverage bottles, with non-carbonated fruit juice packaging joining carbonated drinks packaging in the scheme. SmartHeat RHC also allows for a reduction in energy during the bottle blowing process, helping to reduce carbon emissions.

reSound™ Ultra-Low Carbon Footprint TPEs - Product Bulletin reSound™ Ultra-Low Carbon Footprint TPEs Explore these eco-conscious materials offering an ultra-low product carbon footprint

Complēt™ long carbon fiber reinforced ETPU composite reduced weight 33% and performance analysis services confirmed metal-to-thermoplastic conversion success Complēt™ long carbon fiber reinforced ETPU composite along with product design and performance analysis services create industry-first integrated rail and riser assembly for Scorpyd Crossbow Injection molded Complēt™ long carbon fiber reinforced nylon composite delivered high stiffness and low weight while simplifying manufacturing

These short fiber formulations combine select engineering resins with reinforcing additives such as carbon powder, carbon fiber, nickel-coated carbon fiber and stainless steel fiber, to provide the precise level of electrical conductivity required for your application.   

Product Carbon Footprint (PCF) calculator: a service to enable customers to determine the carbon footprint of their solutions and help evaluate which sustainable solutions can offer a lower environmental impact   Light-weighting solutions that replace heavier traditional materials like metal, glass and wood, which can improve fuel efficiency in all modes of transportation and reduce carbon footprint

Gordon Composites™ continuous glass and carbon fiber bar stock, laminates, and composite springs, including springs for high-temperature industrial applications Fiber-Line™ engineered high-performance fibers, including coated, twisted, and custom-wound aramid, glass, carbon, HMPE, and LCP fibers  Light-weighting solutions that replace heavier traditional materials like metal, glass and wood, which can improve fuel efficiency in all modes of transportation and reduce carbon footprint  

The PA6 grade contains 76% PIR, and the PA66 grade contains 78% PIR content, resulting in up to 81% lower cradle-to-gate product carbon footprint (PCF) than traditional alternatives made without recycled content. These super tough nylons were developed to provide our customers new, recycled, lower carbon footprint options for high-performance material needs,” said Matt Mitchell, Director, Global Marketing, Specialty Engineered Materials at Avient. Light-weighting solutions that replace heavier traditional materials like metal, glass and wood, which can improve fuel efficiency in all modes of transportation and reduce carbon footprint