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Development of ceramic coatings on titanium alloy substrate by laser cladding with pre-placed natural derived-slurry: Influence of hydroxyapatite ratio and beam power

The attraction towards Ti and its alloys reside in their superior mechanical and tribological features, as compared to CaPs, which are renowned for their compositional and structural features similar to those of natural bones. However, Ti-based materials suffer from limited biocompatibility and iner...

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Published in:Ceramics international 2023-04, Vol.49 (7), p.10445-10454
Main Authors: Mocanu, Aura-Cătălina, Miculescu, Florin, Stan, George E., Tite, Teddy, Miculescu, Marian, Țierean, Mircea Horia, Pascu, Alexandru, Ciocoiu, Robert-Cătălin, Butte, Tudor Mihai, Ciocan, Lucian-Toma
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Language:English
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Summary:The attraction towards Ti and its alloys reside in their superior mechanical and tribological features, as compared to CaPs, which are renowned for their compositional and structural features similar to those of natural bones. However, Ti-based materials suffer from limited biocompatibility and inertness when implanted for extended periods. As such, surface modification with ceramic coatings is required in order to achieve proper biomedical features and enhance their overall behavior in the human body. Hence, this study outlined for the first time the prospect of coating several Ti6Al4V substrates (disks) with bovine-bone derived hydroxyapatite (HA) by laser cladding technique with pre-placed slurry. During laser processing the input materials merge depending on the heating rate/temperature and clad materials. The proposed sample preparation set-up, followed for the first time in this study, involved the concomitant modulation of two parameters: the natural HA ratio (100 wt%, and 50 wt% HA + 50 wt% Ti blends) and laser beam power (500–1000 W range). The laser beam was applied after the ceramic slurries (prepared HA/HA-based blends mixed with polyvinyl alcohol) were placed inside the priorly machined channels on the metallic Ti disks. Partially overlapped cladding tracks (∼30% overlapping ratio) resulted and the investigations were further performed in cross-section view. The structural analyses confirmed the formation of calcium titanate as main phase for all samples and the arrest of HA only for those prepared with 100% HA ratio at low to medium laser powers. In addition, the morpho-compositional evaluation revealed the formation of a fully ceramic coating only for the latter sample sets. Further, the surface wettability (contact angle and surface free energy) and Vickers micro-hardness results led to the selection of the optimal technological parameters for the development of ceramic cladded layers with prospect compatibility with regenerative medicine applications. [Display omitted] •Novel development of naturally-derived ceramic coatings on Ti6Al4V substrate.•Comprehensive investigations on laser cladded coatings with pre-placed slurry.•Influence of modulated HA ratio and laser power on the ceramic coatings features.
ISSN:0272-8842
1873-3956
DOI:10.1016/j.ceramint.2022.11.227