Sustainable
foam additives
Functional Carbon Negative Additives
Heartland's natural fiber additives can be used in styrenes to expand supply and reduce carbon footprint. Many of today's applications use unfilled styrene. This makes it easy to reduce the cost and carbon footprint of traditional materials with sustainable additives.
- Increase Strength While Reducing Cost & Carbon Footprint
- Lead Your Industry In Sustainable Material Innovation
Product Consistency Through Farming & Processing
Heartland supports local farming for local manufacturing by engineering hemp fiber additives for bonding & performance.
Heartland's additives are being used by styrene producers, compounders, and molders to extend supply, alter performance, and go green.
Unlocking The Sustainable Future We Need And Deserve
Heartland's materials replace and augment additives like talc, calcium carbonate, fiberglass, and carbon black.
We work with global brands and their suppliers to predictably reduce the carbon footprint of everyday products without any retooling costs.
Carbon Footprint Reduction
Throughout The Supply Chain
Farmer
Heartland partners with corn, wheat, and soy farmers to embed industrial hemp into their crop rotation. Our USDA Grant has given us unique insights into industrial hemp farming, regenerative agriculture, and carbon sequestration.
Compounder
Heartland partners with plastic compounders to augment talc, calcium, and glass without any retooling costs. Our Imperium masterbatch solves dust, flammability, bonding, and bulk density problems typically associated with bio-based additives.
Converter
Heartland partners with plastic converters to ensure the hemp-filled resin is processed properly. Our team works alongside component part manufacturers to process natural fiber-filled plastic with the same molds used today.
Brand
Heartland is the sustainability partner for brands on their journey to reduce their carbon footprint. Our team helps create stakeholder alignment so companies can effectively communicate the value of sustainable material innovation.