THE ANALYSIS OF PHYSICAL AND MECHANICAL CHARACTERISTICS OF FACING COMPOSITE MATERIALS CERAMAGE («SHOFU») AND ULTRAGLASS («VLADMIVA»)
- 作者: Tscymbalystov AV1, Kopytov AA1, Chuev VP1, Asadov RI1, Vinakov DV1
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隶属关系:
- Belgorod State National Research University
- 期: 卷 22, 编号 4 (2018)
- 页面: 415-420
- 栏目: Stomatology
- URL: https://journal-vniispk.ru/2313-0245/article/view/344893
- DOI: https://doi.org/10.22363/2313-0245-2018-22-4-415-420
- ID: 344893
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详细
According to the Ministry of Industry and Trade, the degree of dependence of the medical industry and practical medicine on imports is 81%. Critical dependence causes a shortage of inexpensive consumables, medicines and medical devices, and as a consequence of the increase in the cost of medical services, which is estimated as a threat to national security. In various regions of the Russian Federation in the general structure of dental care for patients in all age groups, dental arch defects range from 40 to 75%. Non-removable prosthetics for socially unprotected segments of the population are carried out mainly by bridges with lining the metal frame with hot-curing plastic, short-lived due to low strength characteristics, significant abrasion, and hygroscopicity. To a large extent, the service life of fixed prostheses is determined by the combination of the physicomechanical properties of the facing material, such as flexural strength, modulus of elasticity, and hardness. Flexural strength characterizes the ability of a material to resist unaxial occlusal loading, the modulus of elasticity determines the stiffness of a material and its ability to withstand applied loads without significant deformations, and the hardness characterizes the wear resistance of a material and its ability to withstand abrasion by antagonists. This paper presents the results of a study of the physicomechanical properties of facing composite materials: Ceramage (Shofu, Japan) and Ultra Glass (VladMiVa, Russia). The revealed differences in flexural strength, modulus of elasticity and Vickers microhardness of the material “UltraGlass” allow us to recommend it for widespread clinical use. Expanding the range of domestic materials for orthopedic dentistry by developing a coating composite material UltraGlass helps to improve the quality of dental care to the population with social benefits.
作者简介
A Tscymbalystov
Belgorod State National Research University
编辑信件的主要联系方式.
Email: tsimbalistov@bsu.edu.ru
Doctor of Medical Sciences, Professor, Head of the Department of Orthopedic Dentistry, Belgorod State University National Research University, Honored Doctor of the Russian Federation, Deputy Director of the Medical Institute
308015, Russia, Belgorod, ul. Victory, 85, Bldg. 17A Kopytov
Belgorod State National Research University
Email: tsimbalistov@bsu.edu.ru
V Chuev
Belgorod State National Research University
Email: tsimbalistov@bsu.edu.ru
R Asadov
Belgorod State National Research University
Email: tsimbalistov@bsu.edu.ru
D Vinakov
Belgorod State National Research University
Email: tsimbalistov@bsu.edu.ru
参考
- Kopytov A.A. Tekhnologizaciya upravleniya informacionno-kommunikativnym prostranstvom rossijskogo vuza kak faktor povysheniya urovnya konkurentosposobnosti. Dissertaciya na soiskanie uchenoj stepeni kandidata sociologicheskih nauk. Rossijskaya akademiya narodnogo hozyajstva i gosudarstvennoj sluzhby pri Prezidente RF. Orel, 2014.
- Dzanaeva A.V., Omel'yanovskij V.V., Kagermazov S.A. Principy importozameshcheniya lekarstvennyh preparatov. Farmakoehkonomika. Sovremennaya farmakoehkonomika i farmakoehpidemiologiya. 2015. T. 8. № 2. S. 38—42.
- Postanovlenie Pravitel'stva RF № 305 ot 15 aprelya 2014 goda Ob utverzhdenii gosudarstvennoj programmy Rossijskoj Federacii — Razvitie farmacevticheskoj i medicinskoj promyshlennosti na 2013—2020 gody.
- Brovko V.V. Kliniko-ehpidemiologicheskij analiz rezul'tatov ortopedicheskogo lecheniya bol'nyh s chastichnym otsutstviem zubov s uchetom vozrastnyh pokazatelej. Dissertaciya na soiskanie uchenoj stepeni kandidata medicinskih nauk. Moskva, 2011.
- Baraba A. Minimal'no invazivnaya tekhnologiya zameshcheniya udalennyh zubov. Dental Forum. 2017. № 4. S. 82.
- Tyo E.A,, CHashchina A,O. Aktual'nye aspekty profilaktiki vtorichnogo kariesa zubov. Klinicheskaya stomatologiya. 2016. № 2 (78). S. 14—18.
- Zagorskij V.V. Morfofunkcional'nye harakteristiki tvyordyh tkanej zubov, morfologicheskoe i biomekhanicheskoe issledovanie. Dissertaciya na soiskanie uchenoj stepeni kandidata medicinskih nauk. Moskva, 2017.
- Morales-Rodríguez A., Gallardo-López A., Fernández-Serrano A., Muñoz A., Domínguez-Rodríguez A., Poyato R. Improvement of vickers hardness measurement on swnt/ al2o3 composites consolidated by spark plasma sintering. Journal of the European Ceramic Society. 2014. T. 34. № 15. S. 3801—3809.
- Leshchuk L.S. Durability of dental products at dynamic contact with hard tooth tissues. experimental research. Novinki stomatologii. 2014. № 1 (78). S. 105—110.
- Novak N.V, Bajtus N.A. Analiz fiziko-mekhanicheskih harakteristik tverdyh tkanej zuba i plombirovochnyh materialov. Vestnik Vitebskogo gosudarstvennogo medicinskogo universiteta. 2016. T. 15. № 1. S. 19.
- Niu Lin, Lu Yi, Liu Yue-sheng. Application of Ceramage modified fixed Maryland Bridge for aesthetic restoration of anterior dentition defects. Chinese Journal of Aesthetic Medicine. 2011. № 04.7-16
- Matyunin V.M., Marchenkov A.Yu., Agafonov R.Yu. Sposob opredeleniya tverdosti materialov vdavlivaniem piramidy na raznyh masshtabnyh urovnyah indentirovaniya. Tekhnologiya metallov. 2014. № 6. S. 44—47.
- Nikolaenko S.A., Pechenegina E.V., Zubarev A.I., Fedorov Yu.V., Lobauehr U. Sravnitel'naya harakteristika iznosostojkosti sovremennyh polimernyh kompozitov. Klinicheskaya stomatologiya. 2017. № 3 (83). S. 4—9.
- Grebenyuk S.M., Klimenko M.I. Opredelenie effektivnogo modulya uprugosti kompozita pri normal'nom raspredelenii modulej uprugosti volokna i matricy. Vestnik Hersonskogo nacional'nogo tekhnicheskogo universiteta. 2014. № 3 (50). S. 254—258.
- Matveev D.V., Sokolov P.E., Laze R., Petrikas O.A. Issledovanie prochnosti na izgib armirovannogo kompozita. Tverskoj medicinskij zhurnal. 2016. № 4. S. 73—75.
- Li Xiao, Jin Zhu-kun, Yang Kai, Zhao Hui. Mechanical characteristic and monomer conversion effects of post heated and press on ceramage ceramic optimized polymer material. Chinese Journal of Prosthodontics. 2011-03. 98—109.
- Chen H., Yang L., Long J. First-principles investigation of the elastic, vickers hardness and thermodynamic properties of al-cu intermetallic compounds. Superlattices and Microstructures. 2015. T. 79. S. 156—165.
- Kandemir A.C., Courty D., Spolenak R., Ramakrishna S.N., Erdem D. Gradient nanocomposite printing by dip pen nanolithography. Composites Science and Technology. 2017. T. 138. S. 186—200.
- Teng Ji-li, Luo Lin, Liang Xing,Wang Hang. An in vitro study of the marginal fit and fracture strength of Ceramage ceramic optimized polymer crowns. International Journal of Stomatology. 2010-03. 34—51.
- Sokolovich N.A., Klimova E.A., Ponomareva K.G., Polyakova E.A., Brodina T.V. Issledovanie mikrobiologicheskih i biohimicheskih izmenenij v polosti rta posle terapii kariesa. Medicinskij al'yans. 2017. № 2. S. 74—79.
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