An innovative wet fiber molding technology that enables mass production of cellulose-based packaging with industry-leading financial and environmental returns.
An innovative wet fiber molding technology that enables mass production of cellulose-based packaging with industry-leading financial and environmental returns.
Primary (Virgin)
Non-Wood Agriculture Secondary & Recycled
SC 200 Fiber Molding Machine
Proprietary Tooling
Intelligent Control System
Pulp Feeding System
Highly versatile packaging applications across multiple industries
Highly versatile packaging applications across multiple industries
SinterCell™ enables higher productivity and production levels across CAPEX/OPEX investments resulting in superior financial returns.
SinterCell™ end-products have all the characteristics of plastics but all the environmental benefits of natural cellulose fibers.
The SinterCell™ process renders the cellulose fibers 100% reusable, meaning our products are “circular economy ready” in addition to being fully compostable and recyclable.
SinterCell™ enables higher productivity and production levels across CAPEX/OPEX investments resulting in superior financial returns.
SinterCell™ end-products have all the characteristics of plastics but all the environmental benefits of natural cellulose fibers.
The SinterCell™ process renders the cellulose fibers 100% reusable, meaning our products are “circular economy ready” in addition to being fully compostable and recyclable.
Breakthrough Innovations
The SinterCell™ wet fiber molding process is unique in its ability to allow high levels of heat, pressure, and water extraction to generate a superior hydrogen bond between the cellulose fibers, resulting in end-products having characteristics of plastic but all the environmental benefits of natural fibers.
The SinterCell™ bonding process significantly enhances the infusion of additives into the cellulose fibers, thereby, improving overall barrier performance.
1.
The process starts with our proprietary tooling designs that allow steam to escape when heat and pressure are applied to the fiber webs.
2.
A rotational pressbox increases unit productivity by creating continuous
high-speed production flows.
3.
The intelligent use of heat and pressure during the SinterCell™ process increases fiber density while reducing shrinkage, which in turn facilitates the bonding and tensioning of fibers while trapped between the tools.
4.
This creates an end-product with a memory factor, increased strength, less weight, higher density, and exact repeatability not found in comparative fiber forming processes.
The process starts with our proprietary tooling designs that allow steam to escape when heat and pressure are applied to the fiber webs.
A rotational pressbox increases unit productivity by creating continuous
high-speed production flows.
The intelligent use of heat and pressure during the SinterCell™ process increases fiber density while reducing shrinkage, which in turn facilitates the bonding and tensioning of fibers while trapped between the tools.
This creates an end-product with a memory factor, increased strength, less weight, higher density, and exact repeatability not found in comparative fiber forming processes.
The process starts with our proprietary tooling designs that allow steam to escape when heat and pressure are applied to the fiber webs.
A rotational pressbox increases unit productivity by creating continuous high-speed production flows.
This creates an end-product with a memory factor, increased strength, less weight, higher density, and exact repeatability not found in comparative fiber forming processes.
Why Cellulose?
Bordex Packaging is a leader in the packaging industry with over 40 years of experience in designing, developing, and manufacturing innovative packaging solutions.
SCE Technology BV is part of the Bordex Packaging Group. SCE is the exclusive distributor of the SinterCell™ production technology in European markets.
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