Abstract
The development of new candidate alloys with outstanding characteristics for their use in the aeronautical field is one of the main priorities for the sector. In this context, nanocrystaline (nc) alloys are considered relevant materials due to their special features, such as their exceptional physical and mechanical properties. However, another important point that needs to be considered with newly developed alloys is the potential toxicological impact that these materials may have in humans and other living organisms. The aim of this work was to perform a preliminary toxicological evaluation of three nc metal alloys (WCu, WAl and TiAl) in powder form produced by mechanical alloying, applying different in vitro assays, including a mix of W-Cu powders with standard grain size in the experiments to stablish comparisons. The effects of the direct exposure to powder suspensions and/or to their derived leachates were analysed in three model organisms representative of human and environmental exposures (the adenocarcinomic human alveolar basal epithelial cell line A549, the yeast Saccharomyces cerevisiae and the Gram negative bacterium Vibrio fischeri). Altogether, the results obtained provide new insights about the potential harmful effects of the selected nc alloys, showing that, from a toxicological perspective, nc TiAl is the safest candidate in the model organisms and conditions tested.
Highlights
The development of new candidate alloys with outstanding characteristics for their use in the aeronautical field is one of the main priorities for the sector
The biological impact of the alloy powders of nc WCu, WAl and TiAl was analysed performing different in vitro assays using two model organisms that were selected as representatives of human (A549 cell line) and environmental exposures (Saccharomyces cerevisiae)
Three binary nc alloys have been selected in the present study for their toxicological evaluation, due to their special features and potential application in the aeronautical industry
Summary
The development of new candidate alloys with outstanding characteristics for their use in the aeronautical field is one of the main priorities for the sector In this context, nanocrystaline (nc) alloys are considered relevant materials due to their special features, such as their exceptional physical and mechanical properties. Nanocrystaline (nc) alloys are considered relevant materials due to their special features, such as their exceptional physical and mechanical properties Another important point that needs to be considered with newly developed alloys is the potential toxicological impact that these materials may have in humans and other living organisms. This work provides preliminary information about the safety of the different nc alloys, giving valuable data to help to determine the most appropriate candidate considering their potential hazardous properties
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