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Additive manufacturing of Trabecular Titanium orthopedic implants

Published online by Cambridge University Press:  12 February 2015

M. Regis
Affiliation:
Lima Corporate, Italy;marco.regis@limacorporate.com
E. Marin
Affiliation:
Chemistry, Physics, and Ambient Department, University of Udine, Italy;elia.marin@uniud.it
L. Fedrizzi
Affiliation:
Chemistry, Physics, and Ambient Department, University of Udine, Italy;lorenzo.fedrizzi@uniud.it
M. Pressacco
Affiliation:
Lima Corporate, Italy;michele.pressacco@limacorporate.com
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Abstract

The long-term success of an orthopedic implant largely depends on the extent of its osseointegration in the surrounding bone. During recent decades, there have been several attempts to develop porous structures and coatings in order to maximize the bone ingrowth on prosthesis surfaces. Innovative additive manufacturing technologies, such as electron beam melting (EBM), which are based upon building components by adding layers of material rather than by removing material from a raw shape, can provide a breakthrough solution, both to overcome the major limitations of the actual technologies and to significantly enhance the performance of porous scaffolds. This article reviews the latest developments in EBM technology applied to the preparation of highly biocompatible porous materials such as Trabecular Titanium and the production of orthopedic prostheses with enhanced characteristics.

Type
Research Article
Copyright
Copyright © Materials Research Society 2015 

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