Jurko, J.; MiÅ¡kiv-PavlÃk, M.; Hladký, V.; LazorÃk, P.; MichalÃk, P.; PetruÅ¡ka, I.
Measurement of the Machined Surface Diameter by a Laser Triangulation Sensor and Optimalization of Turning Conditions Based on the Diameter Deviation and Tool Wear by GRA and ANOVA. Appl. Sci. 2022, 12, 5266.
https://doi.org/10.3390/app12105266
AMA Style
Jurko J, MiÅ¡kiv-PavlÃk M, Hladký V, LazorÃk P, MichalÃk P, PetruÅ¡ka I.
Measurement of the Machined Surface Diameter by a Laser Triangulation Sensor and Optimalization of Turning Conditions Based on the Diameter Deviation and Tool Wear by GRA and ANOVA. Applied Sciences. 2022; 12(10):5266.
https://doi.org/10.3390/app12105266
Chicago/Turabian Style
Jurko, Jozef, Martin MiÅ¡kiv-PavlÃk, Vratislav Hladký, Peter LazorÃk, Peter MichalÃk, and Igor PetruÅ¡ka.
2022. "Measurement of the Machined Surface Diameter by a Laser Triangulation Sensor and Optimalization of Turning Conditions Based on the Diameter Deviation and Tool Wear by GRA and ANOVA" Applied Sciences 12, no. 10: 5266.
https://doi.org/10.3390/app12105266
APA Style
Jurko, J., MiÅ¡kiv-PavlÃk, M., Hladký, V., LazorÃk, P., MichalÃk, P., & PetruÅ¡ka, I.
(2022). Measurement of the Machined Surface Diameter by a Laser Triangulation Sensor and Optimalization of Turning Conditions Based on the Diameter Deviation and Tool Wear by GRA and ANOVA. Applied Sciences, 12(10), 5266.
https://doi.org/10.3390/app12105266