A leader in biomaterial technology for 3D Printing and molding

We produce FibreTuff PAPC compounds that are biocompatible, absorbable and non degradable for Class I and II medical devices.

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FibreTuff PAPC Compounds for the Medical Industry

3D Printed bone made with FibreTuff PAPC for medical universities

FibreTuff PAPC compounds produce 3D printed bone replacement, meshes, hearing aides, foot orthotics..

PAPC ingredients are compounded into pellets to make 3D Printing filament / powders to replace highly engineered compounds. Universities, Medical Centers and Device companies are developing new products with FibreTuff PAPC. FibreTuff PAPC has passed USP Class VI testing for 3D Printing medical devices and implants. 

FibreTuff PAPC machined and laser cut

FibreTuff PAPC being machined for proof of concept in prosthetic applications

These FibreTuff PAPC compounds are made with cellulose to produce filaments for 3D Printing prosthetic and orthopedic devices and eventually implants. Benefits in using FibreTuff PAPC compounds include no offensive odors at recommended processing temperatures, lowering material purchasing costs, reducing the cost in processing with minimal drying time, utilize standard sterilization methods - Autoclave and Gamma. 



FibreTuff PAPC filled this injection molded part with a .003" tolerance

FibreTuff PAPC compounds for CNC machining, Injection and Extrusion

The medical industry is especially fond of  PAPC compounds because different processes can used like 3D Printing, Injection molding and Extrusion. These PAPC compounds have been micro molded successfully where other natural fiber thermoplastic compositions have failed due to high shear sensitivity and process temperature >210C. Secondary processes like machining, metal plating and compression molding have been qualified with PAPC. 

FibreTuff Technology

The FibreTuff®  technology includes USPTO trademark, patent pending applications and patented compositions that include Polyamide, Polyolefin and Cellulose (PAPC) . The technology can provide some unique qualities and attributes for other industries - aerospace, automotive, building and construction, cosmetics. For more information www.woodcompositesandmolding.com

FibreTuff PAPC : Compare PEEK (pdf)
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Bulletin Board at FibreTuff

nScrypt Demonstrates Ability to 3D Print Embedded Sensors for Medical Devices


https://www.engineering.com/3DPrinting/3DPrintingArticles/ArticleID/16844/nScrypt-Demonstrates-Ability-to-3D-Print-Embedded-Sensors-for-Medical-Devices.aspx

Important FibreTuff News

FibreTuff Develops Filaments for 3D Printing by Plastics News January 5, 2018 http://www.plasticsnews.com/article/20180105/NEWS/180109943/fibretuff-develops-filaments-for-3d-printing

Ted Walkowski New COO

FibreTuff Medical Biopolymers, LLC has a new Chief Operating Officer and partner Ted Walkowski. Ted has over 20 years of plastic compounding experience with responsibilities of plant operational and management experience. Welcome Ted !!!

Wanted: Service Providers

FibreTuff is looking for dedicated service providers to 3D Print our PAPC compounds. Contact Robert at email listed below 

Always hiring good people

If you have a medical background with advanced materials experience and education send us a resume. We will have job postings in the future. 

New: Brian Jones joins FibreTuff as Regulatory and Quality Director

Brian Jones joins FibreTuff Medical Biopolymers as a partner to be Director of Regulatory and Quality for the company. Brian has over 15 years experience in compounding thermoplastic.

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Contact for purchasing FibreTuff PAPC or Drop us a line!

Email

Robert@fibretuff.us

Ted@fibretuff.us

FibreTuff

PO Box 353211 Toledo OH 43635-3211

Hours

Monday - Friday: 9am - 5pm

Saturday: By appointment

Sunday: Closed