Current thermal recycling methods fail due to polymer degradation. Our approach is based on established principles of kinetic energy, which is highly localized and rapid, along with optical energy.
Our proprietary system utilizes a Closed-Loop Remanufacturing process that fundamentally restores the integrity of polymer chains. By leveraging precise kinetic & optical energy rather than traditional high-heat shear, we induce a controlled state transition in the material.
Programmable Polymer Remanufacturing for Additive Manufacturing
We are pioneering a paradigm shift in materials science. For decades, recycling semi-crystalline polymers has meant "down cycling"—accepting a loss in mechanical performance due to thermal degradation and uncontrolled shear stress, or expensive and energy draining chemical processing. We have solved this fundamental limitation
We are raising capital to execute the following milestones:
Phase 1
Finalize computational modeling designs for kinetic & optical polymer powder rejuvenation.
Phase 2
Build bench top proof-of-concept apparatus to validate kinetic plasticization parameters for PA12 scrap.
Phase 3
Material characterization of initial output samples to validate morphology and molecular weight retention.
From Hypothesis
to Prototype
Partner in our Pre-Seed Round
Contact us to review our pitch deck, technical white paper outlining our theoretical approach, and go-to-market strategy.
Investor Inquiry