TRAIN Akademie - Key Note Lecture
Öffentliche Vorlesung im Rahmen des Weiterbildungsprogramms „Translationale Forschung & Medizin: Von der Idee zum Produkt“ der TRAIN-Akademie:
Sprecher: Dr. habil. Markus Weinmann | H.C. Starck Tantalum and Niobium GmbH; Senior Scientist Technology Scout;
NBD - New Business Development Nb/Ta
"Development of novel bio-tolerant alloys for application in personalized medical implants"
Wann: Donnerstag, 2.11.2017, 16:30 Uhr
Wo: TWINCORE | Seminarraum 002
Host: Dr. Michael Harder, corlife oHG
Orthopaedic implant materials are exposed to high mechanical loading. Conventional materials based on stainless steel or cobalt-chromium alloys display adequate mechanical strength, but also toxicological concerns due to release of toxic or allergenic elements (particles or ions) resulting in inflammatory reactions in the adjacent tissues. Metal alloys based on titanium, niobium and tantalum represent higher biocompatibility with appropriate mechanical properties for avoiding stress-shielding and consecutive implant loosening. Application of specifically designed spherical Ti/Nb(/Ta) alloy powders in additive manufacturing, i.e. 3D metal printing processes such as selective laser melting (SLM) or electron beam melting (EBM), enable the production of components with a high degree in freedom of design. Accordingly, SLM or EBM of Ti/Nb(/Ta) alloys offer the possibility to fabricate patient-specific orthopaedic implants. The presentation gives an overview on the development of bio-compatible Ti/Nb(/Ta) alloys especially designed for application in 3D metal printing. Furthermore, the additively manufactured 3D structures are mechanically tested and the influence of differently grained alloy powders and bulk parts on the viability and proliferation of human cells (fibroblasts, osteoblasts) are examined.
- TRAIN_KL_weinmann.pdf157 Ki