Page 366 - dyser_Stankevych
P. 366
366
472. Vallittu P. K. Use of woven glass fiber to reinforce a composite veneer. A
fracture resistance and acoustic emission study. Journal of Oral Rehabilitation. 2002.
29(5). P. 423–429.
473. Choi N.-S., Gu J.-U., Arakawa K. Acoustic emission characterization of the
marginal disintegration of dental composite restoration. Composites Part A: Applied
Science and Manufacturing. 2011. 42(6). P. 604–611.
474. Fracture toughness and acoustic emission behavior of dental composite resins /
Kim K.-H., et al. Engineering Fracture Mechanics. 1991. 40(415). P. 811–819.
475. Mirsayar M. M. On fracture analysis of dental restorative materials under
combined tensile-shear loading. Theoretical and applied fracture mechanics. 2018. 93.
P. 170–176.
476. Yi Y.-J., Kelly J. R. Failure responses of dental porcelain having three surface
treatments under three stressing conditions. Dental Materials. 2011. 27. P. 1252–1258.
477. Characterization of metal/ceramic interfaces in dental materials by acoustic
emission / Ortega V. I., et al. Procedia Material Science. 2015. 8. P. 683–92.
478. Adhesion study in metal-ceramic systems of dental restoration by acoustic
emission / Ortega V. I., et al. Procedia Material Science. 2015. 9. P. 477–83.
TM
479. Protemp 4. URL: http://multimedia.3m.com/mws/mediawebserver?mws-
Id=SSSSSufSevTsZxtUOx2Bmx_GevUqevTSevTSevTSeSSSSSS--&fn=protemp_p-
l_clin_result.pdf (дата звернення: 02.04.2014).
480. Structur 2SC. URL: http://www.voco.com/us/product/structur_2_sc/index.html
(дата звернення: 02.04.2015).
481. Материал стоматологический для временных пластмассовых коронок
“Акродент” – новая отечественная пластмасса для ортопедической стоматологии.
URL: http://www.provisor.com.ua/100matolog/archive/2003/8/art_13.htm (дата
звернення: 07.05.2015).
482. GC TEMPRON, 1-1 PKG (003439). URL: http://www.kraftwaydental.ru/gro-
ups/574/ (дата звернення: 02.04.2015).
