Προηγμένες διεργασίες εναπόθεσης υλικών και διεργασίες ακριβείας με την χρήση δεσμών Λέιζερ υπερβραχέων παλμών για την μικρο/νανοδόμησης της επιφάνειας τους είναι δυνατό να συμβάλουν στην ανάπτυξη νέων, καινοτόμων, έξυπνων προϊόντων καθημερινές χρήσης, όπως οι ξυριστικές μηχανές που αποτελούν τον στόχο του έργου SpinNano, με προηγμένες λειτουργικότητες όπως ο αυτοκαθαρισμός, η υπερλιπαντική (superlubrication) λειτουργία και η αντιμικροβιακή δράση, οι οποίες ενισχύουν καίρια την απόδοση των προϊόντων και επεκτείνουν σημαντικά την διάρκεια της ζωής τους.
Advanced process for the nanocoatings deposition and the Laser precision processes with short and ultrashort laser pulses can contribute to the development of new, innovative, intelligent consumer goods for everyday use, such as the shaving razors that the SpinNano focus, with advanced functionalities such as self-cleaning, super-lubrication, and antimicrobial activity that boost the product performance and significantly extend its lifetime.
SpinNano is a highly collaborative industrial research project between Bic-Violex (BIC), which is a global leader in the design, production and commercial distribution of razor blades and related products, and Organic Electronics Technologies (OET), a Greek start-up that specializes in polymers printing (deposition) and Precision Laser processes for materials treatment and nanostructuring. The main ambition of SpinNano partners is to create the next generation of razor blades by developing innovative processes for depositing, modifying, patterning razor blade materials (lubricating nano-coating and stainless-steel substrate) beyond the current state-of-the-art with the ultimate goal to optimize the functionalities and performance of the razor blade.
In this way, SpinNano project aims to significantly contribute with novel processes in the new generation of razor blades and in the long term to significantly strengthen BIC position on the global razor market and OET industrial application of Electrostatic deposition process and Precision Processes with ps and ns laser pulses.