Saniya Juneja, Glynis Miranda, Afiya Eram, N. Shetty, C. K N, Laxmikant G. Keni
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引用次数: 0
摘要
本研究旨在通过 ANSYS WORKBENCH R2 进行三维有限元分析,评估和比较在 200 N 垂直和倾斜咬合负荷下,单片氧化锆(MZ)和硬质合金氧化锆(ZP)上部结构对种植体内部应力分布和 D2/D4 骨密度的影响。分析采用了最大和最小 von Mises 应力值。在对直径为 4.2 毫米、长度为 10 毫米的种植体和直径为 0.47 毫米的基台以及直径为 8 毫米、长度为 6 毫米的单冠进行建模时,研究发现在垂直加载下,MZ 模型的 D2 骨松质中的 von Mises 应力较低。相反,在倾斜加载下,ZP 模型在种植体周围 D4 骨中显示出最大的 von Mises 应力。这突出表明,要想获得持续的种植成功,除了美观之外,还必须考虑物理和机械性能。研究结果突出了材料成分和应力分布的影响,强调了持久有效的种植治疗的必要性。
Investigating the Influence of All-Ceramic Prosthetic Materials on Implants and Their Effect on the Surrounding Bone: A Finite Element Analysis
This study aims to assess and compare the impact of Monolithic Zirconia (MZ) and In-Ceram Zirconia (ZP) superstructures on stress distribution within implants and D2/D4 bone densities under 200 N vertical and oblique occlusal loads using three-dimensional finite element analysis via ANSYS WORKBENCH R2. The analysis employed maximum and minimum von Mises stress values. Modeling an implant (4.2 mm diameter, 10 mm length) and abutment (0.47 mm diameter), with an 8 mm diameter and 6 mm length single crown, the research identified lower von Mises stresses in D2 cancellous bone with the MZ model under vertical loading. Conversely, under oblique loading, the ZP model exhibited maximum von Mises stresses in D4 bone around the implant. This underscores the critical need to consider physical and mechanical properties, beyond mere aesthetics, for sustained implant success. The findings highlight the effect of material composition and stress distribution, emphasizing the necessity of durable and effective implant treatments.
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