FibreTuff biomaterials with "bone like" qualities for 3D Printing
Why you should purchase FibreTuff
3D Printed anatomical bone like models
FibreTuff for proof of concept Spine and Trauma applications
3D Printed FibreTuff compounds have radiopacity
FibreTuff biomaterial compounds produce 3D Printing filament / powders to replace cadaver work. FibreTuff has bone like qualities such as look and feel with radiopacity, excellent screw retention, sawing and cutting ability,
3D Printed FibreTuff compounds have radiopacity
FibreTuff for proof of concept Spine and Trauma applications
3D Printed FibreTuff compounds have radiopacity
3D Printed femur has radiopacity with look and feel of actual bone. Bone like features with biocompatibility can be achieved by 3D Printing FibreTuff biomaterials versus other natural fiber thermoplastic compositions have failed due to toxicity, high shear sensitivity and burning when process temperature is greater >220C. medical
FibreTuff for proof of concept Spine and Trauma applications
FibreTuff for proof of concept Spine and Trauma applications
FibreTuff for proof of concept Spine and Trauma applications
FibreTuff has passed USP Class VI testing performed by NAMSA for temporary implants. These FibreTuff biomaterial compounds are made with cellulose to produce filaments for 3D Printing in development of lower cost devices and eventually implants. Benefits in using FibreTuff utilize standard medical sterilization methods - Autoclave and Gamma.
3D printed micropores with FibreTuff filament
FibreTuff can be drilled, cut and sawed like bone.
FibreTuff for proof of concept Spine and Trauma applications
3D printed micropores with FibreTuff medical grade filament by nScrypt. The 3D printing of the pores are symmetrical and consistent. This FibreTuff biomaterial technology will promote bio printing platform for cell and tissue in growth.
FibreTuff has conductive properties
FibreTuff can be drilled, cut and sawed like bone.
FibreTuff can be drilled, cut and sawed like bone.
Through 3D printing of scaffolds with FibreTuff biomaterials, in vitro testing showed conductive properties for tissues and bone in growth. These tests were preformed by a Medical college in Northeast Ohio.
FibreTuff can be drilled, cut and sawed like bone.
FibreTuff can be drilled, cut and sawed like bone.
FibreTuff can be drilled, cut and sawed like bone.
FibreTuff biomaterials have been used for 3D printing bone like models to replace cadaver bone saving $$ and providing an improved ROI for hospitals and medical centers.
3D Printing Project Information and services
FibreTuff for Bone like modeling research
3D Print.com publishes article about FibreTuff
3D Print.com publishes article about FibreTuff
3D Printing / Fabrication of Bone Structures, Based on FibreTuff
Research Group:
Dr. Ross Salary, Division of Engineering, Marshall University, Huntington, WV, 25504
3D Print.com publishes article about FibreTuff
3D Print.com publishes article about FibreTuff
3D Print.com publishes article about FibreTuff
3D Printing FibreTuff Medical Models Are Bone-Like & Anatomically Correct May 20, 2020 by Bridget O'Neal
For purchasing FibreTuff
3D Print.com publishes article about FibreTuff
3D Printing services for FibreTuff
FibreTuff medical grade filaments can be purchased in North Amercica and European markets for 3D printing.
3D Printing services for FibreTuff
3D Printing services for FibreTuff
3D Printing services for FibreTuff
nScrypt uses advanced 3D printing technology for bio printing FibreTuff biomaterials.
3D Printing Services for FibreTuff
3D Printing services for FibreTuff
3D Printing Services for FibreTuff
Delray Systems located in Rochester, MI has extensive experience with modifying STL files and 3D printing FibreTuff biomaterials for medical market. They also sell Ultimaker and BigRep printers.
Industry Partners
Events for FibreTuff
