We create eco-material solutions that fit real-world applications, helping businesses stay efficient, resilient and sustainable.
Fortex recyclable, heavy-duty material for industrial applications
Strong, weatherproof, biodegradable, easy to recycle – dissolves in 100˚C water
Biodegradable logistics bags to reduce material waste & lower your carbon footprint
Used logistics bags are one of the biggest contributors to material waste. Once worn out, conventional logistics bags can only be thrown away. Fortex is the only material that can transform used logistics bags into recoverable/reusable material with just 100˚C hot water. Made from non-toxic, heavy-duty, biodegradable polymer designed to dissolve in hot water, this revolutionary material can be recycled for over 50 rounds before it’s downcycled into a soil enhancer. From now on, modern logistics don’t need to be a source of pollution.
- Our reusable logistics transit/ton bags have a service life of 50+ cycles, offering a very low carbon footprint
- Industrial-grade bag integrated with a circular leasing system
- Incredibly tough: extremely durable, wear-resistant and waterproof, with a load-bearing capacity of over 100kg, with high tear-resistance.
- Re-manufacturable: damaged bags are collected and dissolved in high-temperature water, then processed into new bags after impurity separation
- Made from heavy-duty biodegradable polymer material: economical, safe & non-toxic
- Recyclable: dissolves in 100°C water, reuse or biodegrade
- One piece molding (bag): strong, waterproof, oil-resistant with excellent oxygen/air barrier properties.
- Cuts up to 50% in operational costs: when compared to disposable plastic PE-based materials
- Very low carbon footprint: The bag is leased to logistics operators looking to keep their carbon emissions low.
- RFID track & trace option: the bags can be made intelligent with RFID chips embedded in the bag. The RFID chips can be recovered in the recycling process.
- End of life repurpose: after 50+ cycles, the remnant biodegradable material can be repurposed into a soil enhancer to support environmental & agricultural needs.
