Mechanical Strength Investigation of Gyroid Design Parameters in Titanium Fixed Partial Denture Frameworks Manufactured by Additive Manufacturing
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info:eu-repo/semantics/embargoedAccessTarih
2024Yazar
Çalışkan, Cemal İrfanKhan, Hamaid Mahmood
Koca, Aliihsan
Şahin, Meryem
Tarakçı, Gürkan
Sivri, Burak
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ÇALIŞKAN, Cemal İrfan, Hamaid Mahmood KHAN, Aliihsan KOCA, Meryem ŞAHİN, Gürkan TARAKÇI & Burak SİVRİ. "Mechanical Strength Investigation of Gyroid Design Parameters in Titanium Fixed Partial Denture Frameworks Manufactured by Additive Manufacturing." International Journal of Advanced Manufacturing Technology (2024): 1-15.Özet
Additive manufacturing (AM) has emerged as a highly effective method within the biomedical field, particularly in prosthetic
applications, where it offers numerous advantages such as reduced weight and improved user comfort. This study investigates
how modifications to gyroid design parameters influence the mechanical strength of denture frameworks produced via
additive manufacturing. Employing a multidisciplinary approach, the research encompasses several key stages: redesigning
data from tomography scans, fabricating samples with titanium using additive manufacturing, conducting compression tests,
and analyzing the samples through scanning electron microscopy (SEM) in a metallography laboratory. The investigation
also includes fracture analysis and finite element analysis (FEA) to assess performance. By adopting gyroid geometry in
framework designs, this study presents a novel method that enhances mechanical strength while significantly decreasing
weight. Findings indicate that the integration of gyroid structures can maintain equivalent mechanical strength compared to
traditional designs while achieving material savings of up to 40%.