Experimental and numerical investigations of fracture and fatigue behaviour of implant-supported bars with distal extension made of three different materials

材料科学 巴(单位) 疲劳极限 复合材料 断裂(地质) 压力(语言学) 前磨牙 循环应力 疲劳试验 臼齿 冶金 牙科 气象学 哲学 物理 医学 语言学
作者
Jennifer Mochalski,Christian Fröhls,Ludger Keilig,Christoph Bourauel,Istabrak Dörsam
出处
期刊:Biomedizinische Technik [De Gruyter]
卷期号:66 (3): 305-316 被引量:8
标识
DOI:10.1515/bmt-2020-0157
摘要

Abstract The aim of this study was to investigate experimentally the fatigue and stability of three bar materials with distal extension at the molar region and to numerically analyse the biomechanical properties of the bar materials connected to overdentures in a patient individual model. A milled bar was designed for the mandible on four implants in the canine and second premolar region. Three bar materials were investigated: titanium (Ti), cobalt chromium (CoCr), and polyetherketonketon (PEKK). Firstly, static and fatigue tests were performed based on EN ISO 14801 in a commercial permanent loading set-up. Unilateral axial force was applied on the distal extension of the bars. Secondly, numerical models were created. Different bar materials and loading scenarios were analysed. The static fracture limit of the three materials was 1,750 N, 780 N, 310 N for Ti, CoCr, and PEKK, respectively. The Wöhler curves showed comparable fatigue limits of 200 N, 160 N, and 150 N for titanium, CoCr, and PEKK, respectively. The stress at the distal extension was 2,600 MPa (Ti), 1,000 MPa (CoCr), and 270 MPa (PEKK). All loading simulations with the PEKK bar showed higher stresses in the implants and in the bone bed as well as higher displacements of the over denture in comparison to metal bars. PEKK showed different mechanical behaviour compared to Ti and CoCr. The distribution of stresses within the PEKK bar was wider than the area of loading which probably leads to fatigue of the whole bar and not only the part under load.
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