Pradine, C., Infrastructures de bridges en zircone y-tzp: De la conception aux applications (Ph.D. thesis). 2010, Université Henry poincaré Nancy.
Adatia, N.D., Fracture resistance and surface treatment of Y-TZP prepable ceramic abutments and bars (Ph.D. thesis). 2006, University of North Carolina at Chapel Hill.
Mitov, G., Gessner, J., Lohbauer, U., Woll, K., Muecklich, F., Pospiech, P., Subcritical crack growth behavior and life data analysis of two types of dental Y-TZP ceramics. Dent Mater 27:7 (2011), 684–691.
Petitgenet, H., Apports du matériau zircone en prothèse fixée et implentaire (Ph.D. thesis). 2006, Unniversité de Nancy.
Miyazaki, T., Nakamura, T., Matsumura, H., Ban, S., Kobayashi, T., Current status of zirconia restoration. J Prosthodontic Res 57:4 (2013), 236–261.
Denry, I., Kelly, J.R., State of the art of zirconia for dental applications. Dent Mater 24:3 (2008), 299–307.
Filser, F., Direct ceramic machining of ceramic dental restorations (Ph.D. thesis). 2001, Swiss Federal Institute of Technology Zurich.
Li, R.W.K., Chow, T.W., Mainline, J.P., Ceramic dental biomaterials and cad/cam technology: state of the art. J Prosthodontic Res 58:4 (2014), 208–216.
Leo, M., Deli, P., Walker, M., Digital design and fabrication in dentistry. Bŕetool, P., Bided, B., (eds.) Bio-materials and prototyping applications in medicine, 2008, Springer US, 125–155.
Leon, N., Tape, L., Venn at, E., Mousse, B., Influence of CAD/CAM tool and material on tool wear and roughness of dental prostheses after milling. J Prosthodontic Res 114:2 (2015), 236–247.
LAN, T.-H., Wang, C.-H., Chen, K.-K., Wang, M.-C., Lee, H.-E., Milling properties of low temperature sintered zirconia blocks for dental use. Mater Sic Eng C 73:Supplement C (2017), 692–699.
Alamo, A.-R., Stoll, R., Song, X.-F., Miyazaki, T., Hotter, Y., Shibata, Y., et al. Surface quality of yttrium-stabilized tetragonal zirconia polycrystalline in CAD/CAM milling, sintering, polishing and sandblasting processes. J Mach Behave Boomed Mater 65:Supplement C (2017), 102–116.
Ha, S.-J., Shin, B.-C., Cho, M.-W., Lee, K.-J., Cho, W.-S., High speed end-milling characteristics of pre-sintered Al2O3/Y-TZP ceramic composites for dental applications. J Cream Soc Jon 118:11 (2010), 1053–1056.
Ferraris, E., Maelstrom, T., Bain, R., Reinserts, D., Lauders, B., Mach inability investigation on high speed hard turning of ZrO2 with PCD tools. Proc CIRP 1 (2012), 500–505 fifth CIRP Conference on High Performance Cutting 2012.
Huang, H., Liu, Y., Experimental investigations of machining characteristics and removal mechanisms of advanced ceramics in high speed deep grinding. Int J Mach Tools Manuf 43:8 (2003), 811–823.
Association Française de Normalisation AFNOR. NF E 66-520-5 (E) Working zones of cutting tools – Part 5: Application to milling technology; 1999.
Bissey, S., Development of a cutting forces model applicable to a family of tools: case of milling of hard steels (Ph.D. thesis). 2005, L’école nationale supérieure d'arts et métiers.
International Standards ISO 6872. (E) Dentistry – Ceramic materials; 2008.
DATRON – Dental End Mills and Accessories – Solid carbide end mills for all dental CNC milling machines and materials; 2013.
Altintas, Y., Manufacturing automation: metal cutting mechanics, machine tool vibrations, and CNC design. 2000, The Press Syndicate of the University of Cambridge.