Filtec Precise Announces Increased Efficiency in Polyester Roundslings!

Filtec Precise Inc., a pioneer in the roundsling core yarn supply industry, is proud to announce their newest innovation EPP – Engineered Polyester Power.  EPP is a core yarn designed specifically for high capacity polyester roundslings.

Appropriate for size 7 (blue) and above this core yarn can offer much faster fabrication times and sling efficiency gains thru higher breaking strength and/or less total denier use.  Verified through extensive trials at a number of shops across the country the EPP core yarns can increase sling efficiency as much as 15% in very large (45+ ton vertical capacity) slings.  EPP offers this performance advantage thru a scientifically designed proprietary finish. 

“We developed EPP based on feedback from shops all around the world; this proprietary finish is one of many revolutionary advancements by Filtec.”  said Jim Bailey, President.  One of the first innovations from Filtec Precise was EHP – Engineered Hybrid Power that set the stage for greater market availability of High Performance Hybrid Roundslings.

Filtec Precise Inc is a 25 year old industrial textile converter that is ISO 9001:2008 registered.  Filtec Precise is part of the Filtec Group, a global textile business headquartered in Germany.  All fibers processed and finished by the Filtec Group are used throughout the world in a variety of different applications. Examples include filter fabric, conveyer belt fabrics, construction textiles, geotextiles, narrow fabrics, hoses, lifting equipment rubber components, sewing thread and in medical engineering.  New applications for high tenacity yarns are being developed every day.

To learn more about EPP and other products available through Filtec Precise, please visit www.filtec-precise.com

Advertisements

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s