Piper Plastics Develops Innovative Near Net Shape Technology for High Performance Polymers

Piper Plastics, a leading provider of high performance polymer materials and precision machined plastic components and assemblies, has developed a proprietary high pressure molding technology that yields near net shape polymers up to 2” thick without porosity, voids or sinks.

The process, which utilizes molding equipment designed and developed by Piper Plastics, allows the company to mold high performance thermoplastics, filled or unfilled, with isotropic mechanical properties. “This capability is especially beneficial for large CNC machined parts that were historically limited to extruded or compression molded stock shapes,” explained Dave Wilkinson, Materials Engineering Manager, Piper Plastics.

plastic extrusion machinery
Piper Plastics Develops Innovative Near Net Shape Technology for High Performance Polymers

“In comparison to extrusion and compression molding, this new process yields parts that have higher strength – typically 15-20% stronger than extruded shapes, and 50% stronger than compression molded shapes – plus more consistent mechanical properties.”

A major reason for developing the new technology was to save costs when machining finished parts from expensive high performance materials such as PEEK, PAI or TPI.

The technology also allows Piper to offer small batch runs for mating the right polymer or blend for an application. “Distributors typically only carry about 50 types of engineering plastics but with this technology we can mold custom blanks from over 3,000 polymers and compounds, or develop a compound specifically for an application,” said White.

The process is suitable for larger parts and weights of up to 6 pounds per blank with large and varying wall thicknesses and complex geometries.

As a subsidiary of Quadrant Engineering Plastic Products, Piper near net shapes are now also available from all authorized Quadrant distributors. For more information on Piper’s near net shape high pressure molding.


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