Engineering logic behind sustainable packaging.
Aquafold technology combines molded fiber structure with bio-based barrier direction to create packaging that performs in real environments while improving end-of-life outcomes.
The two-layer packaging approach.
Outer Structural Layer
Molded plant fiber creates the physical body of the package, providing strength, rigidity, and form.
- Bagasse-based fiber direction
- Heat and pressure formed
- Structural stability
- Renewable material base
Inner Barrier Layer
Bio-based coating direction improves liquid resistance and containment.
How packaging moves from fiber to finished product.
Fiber Preparation
Plant fiber is processed into usable pulp material.
Molding & Forming
Pulp is shaped using heat, pressure, and forming tools.
Barrier Application
Bio-based coating direction adds moisture resistance.
Drying & Validation
Packaging is stabilized and performance tested.
Technology should perform under operational pressure.
Leak Resistance
Designed to handle oils, sauces, and liquid-heavy food applications.
Structural Strength
Supports stacking, transport, and repeated handling conditions.
Temperature Handling
Built for hot food environments and short-term thermal exposure.
Built around manufacturing realism.
Infrastructure Compatibility
Aquafold technology is designed to align with pulp molding workflows rather than requiring entirely new manufacturing ecosystems.
- Lower capex direction
- Existing production relevance
- Faster deployment potential
- Commercial scalability path
Need deeper product or manufacturing information?
Aquafold is open to technical conversations related to packaging validation, manufacturing partnerships, and commercialization pathways.