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4.New PGI technology uses submicron fibers

2012-1-5 11:06:22

Polymer Group, Inc. has unveiled a new platform technology to produce nonwovens containing submicron fibers that can deliver improved performance properties for healthcare, industrial, filtration and new emerging market applications.
PGI¡¯s proprietary Arium technology produces a matrix of fibers predominately sized under one micron in diameter.
"Arium is a completely new technology platform for the industry that will enable us to meet the market need for increasingly cost-effective fabrics with improved performance at a value proposition unmatched by any other submicron fiber technology,¡± says Veronica ¡°Ronee¡± Hagen, PGI¡¯s chief executive officer. ¡°Just as we did with our Apex and Spinlace technologies, PGI is leading the industry and investing in game-changing platforms."
PGI has improved the process of producing submicron fibers with its new process after significant R&D efforts.
"While other processes can generate fibers at the submicron level, none can do it as efficiently, and with the same commercial level of throughputs, as Arium technology," says Bob Dale, PGI¡¯s senior vice president of research and development.
PGI has invested in a pilot line in the U.S. at its Waynesboro, VA facility to produce fabrics using the Arium technology. The technology can stand alone or be retrofitted to PGI¡¯s existing meltblown equipment.
"Our Arium technology allows us to be more competitive in our core markets while opening up new opportunities in other markets," says John Heironimus, the company's senior vice president, chief marketing and chief sustainability officer. "By combining technologies, or utilizing Arium technology alone, PGI can deliver innovative product solutions to the market."
The submicron fibers contained in materials produced with the Arium technology can provide higher surface area, biosafety and tunable porosity that enhance performance benefits such as absorbency, adsorption, opacity, softness, barrier protection, acoustic performance and high-efficiency filtration.


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