Flexural Strength of Provisional Crown and Fixed Partial Denture Resins
Sehaqi, S., Saleh, A., Alhaddad, M., Almalki, D., Alnasser, M., Abu Rass, N., Mohsen, M., al TawiL, D., Baaboud, M., Almarzouq, A. (2017). Flexural Strength of Provisional Crown and Fixed Partial Denture Resins. EKB Journal Management System, 68(1), 1003-1009. doi: 10.12816/0038217
Sawsan Badr Sehaqi; Anfal Abdullah Almohammed Saleh; Maryam Alhaddad; Danh Abdullah Almalki; Marwah Radi Alnasser; Naif Abdullah Abu Rass; Mohsen Shinpir Mohsen; Dhay Abdullah a. al TawiL; Maha Salem Baaboud; Abrar Almarzouq. "Flexural Strength of Provisional Crown and Fixed Partial Denture Resins". EKB Journal Management System, 68, 1, 2017, 1003-1009. doi: 10.12816/0038217
Sehaqi, S., Saleh, A., Alhaddad, M., Almalki, D., Alnasser, M., Abu Rass, N., Mohsen, M., al TawiL, D., Baaboud, M., Almarzouq, A. (2017). 'Flexural Strength of Provisional Crown and Fixed Partial Denture Resins', EKB Journal Management System, 68(1), pp. 1003-1009. doi: 10.12816/0038217
Sehaqi, S., Saleh, A., Alhaddad, M., Almalki, D., Alnasser, M., Abu Rass, N., Mohsen, M., al TawiL, D., Baaboud, M., Almarzouq, A. Flexural Strength of Provisional Crown and Fixed Partial Denture Resins. EKB Journal Management System, 2017; 68(1): 1003-1009. doi: 10.12816/0038217

Flexural Strength of Provisional Crown and Fixed Partial Denture Resins

The Egyptian Journal of Hospital Medicine
Article 23, Volume 68, Issue 1, July 2017, Page 1003-1009  XML PDF (405.45 K)
Document Type: Original Article
DOI: 10.12816/0038217
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Authors
Sawsan Badr Sehaqi1; Anfal Abdullah Almohammed Saleh2; Maryam Alhaddad2; Danh Abdullah Almalki1; Marwah Radi Alnasser2; Naif Abdullah Abu Rass3; Mohsen Shinpir Mohsen1; Dhay Abdullah a. al TawiL1; Maha Salem Baaboud1; Abrar Almarzouq2
1Batterjee Medical college for science & technology
2Riyadh Colleges of Dentistry and Pharmacy (RCsDP)
3Ibn Sina National College
Abstract
Purpose: The purpose of this study was `to appraise the fracture strength of provisional crown and fixed partial denture resins with an in vitro test system. Materials and Methods: Bar-type specimens were fabricated according to American National Standards Institute/American Dental Association specification number 27. Reinforcement materials; polyethylene fiber and glass fiber are compared.  Provisional crown-bridge materials are autopolymerising Poly Ethyl Metacrylate (PEMA), autopolymerising Poly Methyl Metacrylate (PMMA), bis-acryl composite resin and light cured composite resin). A total of 150 specimens are arranged for the flexural strength test. The specimens are divided into 5 groups according to the type of resin used (Dentalon Plus, Tetric Ceram, Charisma, Protemp 3, TAB 2000) and then every group was distributed into 3 subgroups rendering to the type of fiber reinforcement (Construct, Fiber-splint ML). Unreinforcement specimens functioned as the control. Specimens were fractured in a universal testing instrument until the point of rupture. Mean flexural strengths were calculated in MPa. Comparisons were completed with analysis of variance and then Duncan's multiple range tests. Results: Mean flexural strengths ranged from 63.45 to 397.8 MPa. There are statistical difference between the groups (Fiber-splint ML, Construct and control). Conclusion: Flexural strengths were material- rather than classification precise. Several, but not all, bis-acryl resins validated expressively superior flexural strength over traditional methacrylate resins. There was significant difference between Fiber-splint ML, Construct and control group.
 
 
Keywords
flexural strength; Bis-acryl composite resin; Provisional crown
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