Page 64 - Inovacije i izazovi u obrazovanju i sestrinskoj skrbi - KNJIGA SAŽETAKA
P. 64

INOVACIJE I IZAZOVI U OBRAZOVANJU I SESTRINSKOJ SKRBI - KNJIGA SAŽETAKA



               Making a 3D Personalized Protective Mask





               The use of personal protective equipment is of vital importance in preventing the spread of
               aerosol  infections  in  the  healthcare  system.  The  most  effective  protection  against  aerosol
               infections is the use of a protective mask, which means that its presence in the healthcare system
               is high, especially during a certain pandemic. The possibilities of designing and manufacturing
               such equipment are limited by the use of traditional manufacturing processes.
               The development of additive technology, artificial intelligence and virtual reality gives rise to
               the possibility of producing a protective mask in a modern and innovative way. The mentioned
               new technologies enable design freedom, product customization and manufacturing quality.
               The 3D printing process requires a 3D CAD model, software (creates cross-section layers of
               the model by storing them as a file on the computer) and a 3D printer (creates the object based
               on the file sent from the computer). 3D printing is considered an adequate and proper method
               of production because it ensures the possibility of personalization, disinfection, reuse and a high
               standard of production. The personalized creation of a 3D protective mask involves three stages.
               The first stage is to scan the health worker's face using a handheld scanner to obtain an accurate
               topography of the individual's face. This is followed by the phase of generating the first solution
               proposals and optimizing the network structure using artificial intelligence. In the third phase,
               the first prototype of a 3D personalized protective mask is created, which will be tested on test
               subjects
               With this work, I want to show the process of creating a personalized protective mask after
               scanning the face of a healthcare worker. I also want to show the methodology of testing the
               suitability of a 3D personalized protective mask and its impact on the quality of life and work
               of a healthcare worker.

               Key words: additive technology, aerosol, protective mask, respiratory system









































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