FYVE STAR™
Material Liberation & Resource Recovery Systems
Transforming Complex Materials into Valuable Resources
Traditional processing methods rely on crushing, grinding, shredding, and cutting materials. While effective for many applications, these methods can damage valuable components, consume significant energy, and limit opportunities for recovering reusable resources.
Material Liberation provides a different approach by separating many complex organic and inorganic materials along their natural fracture planes. This process creates new opportunities to recover valuable components for reuse, manufacturing, research, and sustainable resource development.
WHY MATERIAL LIBERATION?
Industries around the world generate millions of tons of difficult material streams every year. Many of these materials are expensive to dispose of, difficult to recycle, or impossible to process using conventional technologies.
Material Liberation offers an innovative approach that helps organizations unlock new value from materials once considered waste.
Resource Recovery
Waste Reduction
Circular Economy Solutions
Sustainable Manufacturing
Lower Disposal Costs
Increased Material Value
Engineering Flexibility
WHAT CAN BE LIBERATED?
Material Liberation technology has demonstrated applications across a wide range of organic and inorganic materials.
HOW MATERIAL LIBERATION WORKS
Unlike conventional milling systems that crush or grind materials, Material Liberation technology separates many materials along their natural fracture planes, allowing valuable components to be liberated while reducing particle size.
The process follows a straightforward path:

INDUSTRIES WE SERVE

Agriculture & Biomass
Processing hemp, plant fibers, seeds, grains, agricultural residues, and renewable biomass for advanced manufacturing and value-added applications.

Renewable Energy
Supporting end-of-life processing for wind turbine blades, solar panels, battery materials, and renewable energy infrastructure.

Industrial Manufacturing
Processing rubber products, plastics, fiberglass, hydraulic hose, engineered composites, and industrial production materials.

Construction & Infrastructure
Recovering reusable materials from concrete, shingles, glass, ceramics, demolition debris, and infrastructure projects.

Environmental & Municipal
Supporting sustainable waste management through processing municipal waste streams, industrial by-products, and landfill diversion initiatives.

Advanced Materials
Recovering valuable components from electronics, specialty polymers, carbon-based materials, engineered composites, and emerging technologies.
TECHNOLOGY ADVANTAGES
Material Liberation technologies offer several advantages over many traditional impact-based processing systems.
Single-step material reduction
Compact equipment footprint
Lower energy consumption
Reduced material damage
Fine particle production
Broad material compatibility
Wet or dry processing capability
Flexible engineering applications
APPLICATIONS
Material Liberation technology has demonstrated potential across numerous industries and applications.
RESEARCH & VALIDATION
Material Liberation technologies have been evaluated through research, testing, and demonstration programs involving government agencies, universities, and private industry across multiple application areas.
Research organizations have included:






Technology demonstrations have also involved organizations representing agriculture, food processing, manufacturing, pharmaceuticals, industrial processing, and advanced materials research.

WHY FYVE STAR?
FYVE STAR serves as an engineering integration partner, helping organizations evaluate difficult material streams and identify practical resource recovery opportunities.
Rather than offering a one-size-fits-all solution, we collaborate with technology developers, laboratories, engineers, manufacturers, and industrial partners to evaluate feedstocks, identify recovery opportunities, and integrate advanced technologies that align with each customer’s operational goals.
Whether the objective is reducing waste, recovering valuable materials, improving sustainability, or exploring new commercial opportunities, FYVE STAR is committed to delivering practical, scalable solutions that create long-term value.

LET'S START THE CONVERSATION
Every material stream presents unique opportunities.
Whether you’re evaluating biomass, renewable energy materials, industrial by-products, composites, construction debris, electronic waste, or advanced manufacturing feedstocks, FYVE STAR is ready to help identify practical resource recovery solutions.
From pilot evaluations to commercial-scale implementation, we work alongside customers to transform difficult materials into valuable resources.




















