Beschreibung
Biomaterials are commonly used as implant materials in the body for dental prostheses, orthopedics, heart valves and catheters. Titanium and its alloys are known to be the most biocompatible materials due to their surface properties as well as extraordinary mechanical properties. Surface roughness and surface oxide formation are two methods to increase the biocompatibility and to ensure bio-inertness of the implant material. Sand blasting and chemical etching methods are commonly used for patterning the titanium surfaces to alter the surface roughness yet they can cause contamination. Other alternatives like high temperature plasma coating and laser patterning are costly. In this study, Chemical Mechanical Polishing (CMP) process is established as an alternative technique to the existing methods in order to change the implant material surface properties. In implant applications of CMP, the chemical action generates an oxide film to help reduce the contamination on the implants in the body environment reducing the infection risk. The mechanical action provided by the nano-sized abrasive particles, on the other hand simultaneously generate the controlled surface structuring.
Autorenporträt
Dr. Ozdemir and Dr. Basim worked together on implementation of chemical mechanical polishing (CMP) process to bio-interfaces. Dr. Basim received her PhD from the University of Florida in 2002 and Dr. Ozdemir received her PhD in 2017 at Ozyegin University. Their work extended CMP to biomaterials, metals and thinfilms as a nano-structuring technique.
Herstellerkennzeichnung:
BoD - Books on Demand
In de Tarpen 42
22848 Norderstedt
DE
E-Mail: info@bod.de
