A leader in the production of biomaterial compounds for 3D Printing
FibreTuff PAPC compounds for the Medical Industry
FibreTuff PAPC Biomaterial compounds for superior Anatomical Bone Models
FibreTuff PAPC can be 3D Printed in either Fused Deposition Modeling (FDM) or Selective Laser Sintering (SLS).
FibreTuff PAPC has CNC machining qualities
PAPC is a drop in replacement for CNC machining PEEK, PEKK and has performance qualities these resins do not have for medical applications.
FibreTuff PAPC for cellulosic based porous medical devices
PAPC has passed USP Class VI testing, shows no degradation printed at high resolution for new cellulose medical filter construction.
Medical Applications for FibreTuff PAPC
Anatomical models with Radiopacity for improved 3D Printed functional bone models - femurs, calcaneus, talus, metatarsal, skull cap, mandible, sacrum.
FibreTuff PAPC biomaterial compounds produce 3D Printing filament / powders to replace highly engineered medical compounds that are considerable more expensive and lack the necessary performance qualities. FibreTuff PAPC has better bone like qualities such as excellent screw retention, sawing and cutting, radiopacity with an ability to have variable bone size, densities through the 3D Printing process.
FibreTuff PAPC compounds for 3D Printing, Injection and Extrusion
FibreTuff PAPC biomaterials are radiopaque compounds for 3D Printing, Injection molding and Extrusion. FibreTuff PAPC has been 3D Printed for medical applications where other natural fiber thermoplastic compositions have failed due to toxicity, high shear sensitivity and process temperature >220C. Secondary processes like machining, metal plating and compression molding have been qualified with PAPC.
FibreTuff PAPC for temporary implants and machined for proof of concept Spine and Trauma applications
FibreTuff PAPC has passed USP Class VI testing performed by NAMSA for temporary implants. These FibreTuff PAPC compounds are made with cellulose to produce filaments for 3D Printing in development of lower cost 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.
3D Printing Project Information
Purchasing FibreTuff PAPC compounds for 3D Printing
Contact FibreTuff for more details about purchasing, service centers and distribution to support your projects. robert@fibretuff.us
3D Printed veterinary bone models for medical students
FibreTuff PAPC filaments used to produce bone models that have the appearance, texture, feel and construction of human and animal bone.
3D Printed FibreTuff PAPC for SLS/Laser sintering
FibreTuff PAPC biomaterial compounds have been used for proof of concept by EOS 3D Printing.
3D Printing a Mandible using FibreTuff PAPC filament
Pamton 3D Commercial Printing has expertise in 3D Printing dentistry bone models using FibreTuff PAPC .
CT Scan of FibreTuff PAPC shows Radiopacity
A spinal implant made with FibreTuff PAPC filament is Computed Tomography scanned at Toledo Clinic in Northwest OH.
No Offensive Odor in 3D Printing FibreTuff PAPC
FibreTuff PAPC filament when processed at the preferred temperature has no offensive odors unlike some competitive filaments that have bad actors or additives such as maleic anhydride, styrene, etc
FibreTuff PAPC Mechanical Properties
FibreTuff PAPC I
The FibreTuff PAPC I has similar properties to Nylon 11 or 12. The specific gravity of FibreTuff PAPC I is 1.08 g/cc. This comparison chart shows significant opportunities to pursue both SLS and FDM applications in medical market. The FibreTuff PAPC I has special qualities like radiopacity, screw retention cutting and sawing capability. Medical applications include orthopedics, foot and ankle, hand and wrist, ear nose and throat. something interesting about your business here.
Bone like qualities of FibreTuff PAPC
Interesting take on moisture for FibreTuff PAPC
Bone gets brittle after being removed from body. Body fluids do promote better elasticity as well as impact. FibreTuff PAPC reacts to moisture very similar. Other 3D printed materials like PLA will absorb and store moisture until the composition breaks down. FibreTuff PAPC is hydrophilic, will absorb moisture to a point and promote less brittleness and improve impact. Picture is a calcaneus bone FDM print made with FibreTuff PAPC I and a photo of 1st day soaking PAPC I in water .
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