SMAFT-GSBCM™
System and Method for Antimicrobial Fluid Transport and Generative Structural Bio-Composite Manufacturing
Utilizing hyper-lignified industrial hemp for structural hoop-stress resistance and invasive kudzu vines (via the proprietary Thompson Matrix) to isolate high-crystallinity cellulose nanocrystals (CNCs) that reinforce a starch-based biopolymer, this hybrid matrix delivers exceptional strength and durability.
The chelated copper-clay (Cu-Clay) inner lumen harnesses the oligodynamic effect for passive, non-leaching elimination of waterborne pathogens, enhanced by kudzu root isoflavones for inherent antimicrobial resistance. Generative extrusion manufacturing combined with autonomous sonic diagnostics ensures real-time structural integrity monitoring.
SMAFT-GSBCM™
A true alternative to synthetic PVC/PEX: lighter, stronger, eco-regenerative, and sovereign — turning local environmental challenges into resilient infrastructure solutions.
This process transforms an invasive species (kudzu, which overtakes landscapes in Goldsboro-area ecosystems) into a high-value nanomaterial, enabling the Sovereign Conduit to offer superior performance over petroleum-based plastics: stronger, antimicrobial, non-leaching, and regenerative.
The "Thompson Matrix" & Kudzu
The Thompson Matrix process is a proprietary method developed by (Corey Thompson) and described in your USPTO provisional patent applications (#63/984,605 and #63/984,404, for isolating high-crystallinity cellulose nanocrystals (CNCs) from invasive kudzu vines (Pueraria Montana).