The Polymer Fusion Moulding process (PFM).
Introducing a quantum leap in manufacturing large plastic products economically in volume directly from mixed, co-mingled plastics arising from both domestic and industrial waste streams previously destined for landfill or incineration.
For the first time it is possible to manufacture a variety of technical composite products from these materials using the patented Polymer Fusion Moulding technology.
Irrespective of origin or contamination, all thermoplastics can be utilised in this unique and patented process to create useful and valuable products.
The Inventors of this process, Peter Aylmore and Simon Wiper have between them more than 50 years plastics recycling experience not only in the processing , but also in the design and delivery of turnkey bespoke processes.
In 2002 they identified and developed for a UK Public company, the concept of sintering mixed post consumer thermoplastics. Although there are currently a few users of that earlier process, the now available PFM process eclipses the previous technology with both faster cycle times,reduced energy requirement, increased range of polymers able to be utilised, repeatability of product and absolute control of dimensioning notwithstanding the variances possible with diverse feedstocks. Simple mould construction allow low tooling costs, and interactive intelligent computer control with individual product histograms available are just a few of the features available to manufacturers. This last feature potentially being desirable where high tech security or military applications are envisaged for the finished product.
An all products license has already been sold to a licensee company for the Americas, Canada, Australia and New Zealand.
The PFM process is now available for commercialisation and manufacturers and licensees are being sought in the rest of the world for exploitation of this unique and patented process.
Please feel free to examine, evaluate and question by reference and by direct communication with the inventors via the contact page.
Introducing a quantum leap in manufacturing large plastic products economically in volume directly from mixed, co-mingled plastics arising from both domestic and industrial waste streams previously destined for landfill or incineration.
For the first time it is possible to manufacture a variety of technical composite products from these materials using the patented Polymer Fusion Moulding technology.
Irrespective of origin or contamination, all thermoplastics can be utilised in this unique and patented process to create useful and valuable products.
The Inventors of this process, Peter Aylmore and Simon Wiper have between them more than 50 years plastics recycling experience not only in the processing , but also in the design and delivery of turnkey bespoke processes.
In 2002 they identified and developed for a UK Public company, the concept of sintering mixed post consumer thermoplastics. Although there are currently a few users of that earlier process, the now available PFM process eclipses the previous technology with both faster cycle times,reduced energy requirement, increased range of polymers able to be utilised, repeatability of product and absolute control of dimensioning notwithstanding the variances possible with diverse feedstocks. Simple mould construction allow low tooling costs, and interactive intelligent computer control with individual product histograms available are just a few of the features available to manufacturers. This last feature potentially being desirable where high tech security or military applications are envisaged for the finished product.
An all products license has already been sold to a licensee company for the Americas, Canada, Australia and New Zealand.
The PFM process is now available for commercialisation and manufacturers and licensees are being sought in the rest of the world for exploitation of this unique and patented process.
Please feel free to examine, evaluate and question by reference and by direct communication with the inventors via the contact page.