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STAGES

Stage I

Design of composition, method and synthesis technology of the new bioalloy for dental implant and of the characterisation methods. Design and elaboration of the electrochemical method for the surface activation and characterisation methods

Task I.1 - Design of the bioalloy chemical composition based on the studies regarding the recent researches on the world level about the titanium alloys with high biocompatibility, for medical devices

Task I.2 - Selection of the electrochemical methods for the activation of the bioalloy surface based on the most recent tendencies

Task I.3 - Selection of the characterisation methods of the new bioalloy

Task I.4 - Elaboration of the laboratory method for the bioalloy synthesis

Task I.5 - Elaboration of the laboratory technology for the bioalloy synthesis

Task I.6 - Design and experimentation of the electrochemical method for the activation of the bioalloy surface

Task I.7 - Tests regarding the corrosion resistance of the bioalloy in as-cast state

Task I.8 - Dissemination - elaboration and launching WEB page

Stage II

Design and experimentation of the laboratory method and technology for the thermo-mechanical processing of the bioalloy. Design and experimentation of the laboratory technology for the electrochemical activation of the bioalloy surface. Design and experimentation of the laboratory sonochemical method for the antibacterial protection and long term resistance

Task II.1 - Elaboration of the laboratory method for the thermo-mechanical processing of the bioalloy

Task II.2 - Elaboration of the laboratory technology for the thermo-mechanical processing of the bioalloy

Task II.3 - Selection of the implant model

Task II.4 - Elaboration of the method and technology of the mechanical processing for the obtaining of the implant model

Task II.5 - Design of the implant model

Task II.6 - Design and experimentation of the laboratory technology for the electrochemical activation of the bioalloy surface

Task II.7 - Tests regarding corrosion resistance of the bioalloy after electrochemical activation

Task II.8 - Physico-chemical characterisation of the activated surface properties

Task II.9 - Design of the composition for the antibacterial coating, resisting for long term

Task II.10 - Design and experimentation of the laboratory sonochemical method for the antibacterial protection and long term resistance

Task II.11 - Selection of the characterisation methods for the antibacterial coating

Task II.12 - Workshop no. 1 (in Romania)

Task II.13 - Dissemination

Stage III

Demonstration of the reproducibility of the synthesis and thermo-mechanical processing technologies of bioalloy. Design, experimentation and demonstration of the reproducibility for process parameters of the laboratory technologies of the electrochemical activation and antibacterial protection. Determination of the bioalloy in vitro biocompatibility. Test lot of dental implant. Identification and selection of the innovative scientific results

Task III.1 - Demonstration of the reproducibility of the synthesis and thermo-mechanical processing technologies of bioalloy

Task III.2 - Experimentation and demonstration of the machining technology for implant. Test lot of dental implant

Task III.3 - Design and experimentation of the laboratory technology for the antibacterial protection, resisting for long term

Task III.4 - Demonstration of the reproducibility of the process parameters of the laboratory technologies of the electrochemical activation and antibacterial protection

Task III.5 - Characterisation of the antibacterial coating

Task III.6 - Tests regarding the corrosion resistance of the antibacterial coating

Task III.7 - Tests regarding the cell adhesion and proliferation on the alloy surface antibacterial covered

Task III.8 - Elaboration of the patent proposal

Task III.9 - Elaboration of the technico-economical analysis regarding the implementation of the project results

Task III.10 - Elaboration of technical specifications

Task III.11 - Workshop no. 2 (in Israel)

Task III.12 - Dissemination