Assessment of Hardness, Flexural Modulus, and Bond Strength of Acrylic Denture bases Fabricated by 3D Digital Methods
fawzy, A., Abdelrahim, R., Abdel Hameed, B. (2021). Assessment of Hardness, Flexural Modulus, and Bond Strength of Acrylic Denture bases Fabricated by 3D Digital Methods. EKB Journal Management System, 67(3), 2559-2566. doi: 10.21608/edj.2021.76665.1640
aya fawzy; Ramy Abdelrahim; Bassem Abdel Hameed. "Assessment of Hardness, Flexural Modulus, and Bond Strength of Acrylic Denture bases Fabricated by 3D Digital Methods". EKB Journal Management System, 67, 3, 2021, 2559-2566. doi: 10.21608/edj.2021.76665.1640
fawzy, A., Abdelrahim, R., Abdel Hameed, B. (2021). 'Assessment of Hardness, Flexural Modulus, and Bond Strength of Acrylic Denture bases Fabricated by 3D Digital Methods', EKB Journal Management System, 67(3), pp. 2559-2566. doi: 10.21608/edj.2021.76665.1640
fawzy, A., Abdelrahim, R., Abdel Hameed, B. Assessment of Hardness, Flexural Modulus, and Bond Strength of Acrylic Denture bases Fabricated by 3D Digital Methods. EKB Journal Management System, 2021; 67(3): 2559-2566. doi: 10.21608/edj.2021.76665.1640

Assessment of Hardness, Flexural Modulus, and Bond Strength of Acrylic Denture bases Fabricated by 3D Digital Methods

Egyptian Dental Journal
Article 34, Volume 67, Issue 3 - Serial Number 4, July 2021, Page 2559-2566  XML PDF (1.62 MB)
Document Type: Original Article
DOI: 10.21608/edj.2021.76665.1640
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Authors
aya fawzyorcid 1; Ramy Abdelrahim email 2; Bassem Abdel Hameedorcid 1
1Lecturer of Removable Prosthodontics, Faculty of Oral and Dental Medicine, Future University in Egypt.
2Associated Professor of Dental Biomaterial, Faculty of Faculty of Dentistry, Al-Azhar University
Abstract
Abstract:
Objectives: The inferior mechanical properties and the clinical failure of the denture bases could be related to their processing technique and the type of resin used during fabrication. Therefore, this study aimed to evaluate and compare the effect of the processing technique on the hardness, flexural modulus, and bond strength of the different denture base resins.
Materials and Methods: Three processing techniques were used in the present study to fabricate the tested samples; compression-molded fabrication method “control group”, and two different three-dimensional (3D) fabrication methods (CAD/CAM milled “subtractive”, and 3D printed “additive”). The samples used in this study fabricated with different dimensions according to the type of test (hardness, flexural modulus, and shear bond strength).
Results: The results of hardness and flexural modulus revealed that; the CAD/CAM milled samples showed statistically significant higher hardness and flexural modulus values followed by the conventional compression molded and 3D printed respectively. While the results of shear bond strength showed no statistically significant difference among the three different processing methods.
Conclusion: the processing technology has a significant effect on the hardness and flexural modulus of the material. While there is no effect to the fabrication technique on the teeth bond strength.
Keywords
Bond strength; Denture base; Digital fabrication; Flexural modulus; Hardness
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