Fatigue behaviour of selective-laser-melted nickel-titanium scaffolds

机译：选择性激光熔化的镍钛支架的疲劳行为

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The investigated static and dynamic mechanical properties confirm the performance of SLM NiTi scaffolds for load-bearing implants. Since the SLM fabrication process allows dedicated adjustment of the geometry, the mechanical properties such as the elastic modulus can be optimized to match the biomechanical characteristics of the implantation site.

机译：研究的静态和动态力学性能证实了SLM NiTi支架用于承重植入物的性能。由于SLM制造过程允许专门调整几何形状，因此可以优化机械性能（例如弹性模量）以匹配植入部位的生物力学特性。

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《European conference on biomaterials》|2014年|384-384|共1页
会议地点 Liverpool(GB)
作者
Therese Bormann; Bert Mueller; Waldemar Hoffmann; David Wendt; Michael de Wild;
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Institute of Medical and Analytical Technologies University of Applied Sciences Northwestern Switzerland Muttenz Biomaterials Science Center University of Basel Basel Switzerland;

Biomaterials Science Center University of Basel Basel Switzerland;

Institute of Medical and Analytical Technologies University of Applied Sciences Northwestern Switzerland Muttenz Department of Biomedicine University Hospital Basel Basel Switzerland;

Department of Biomedicine University Hospital Basel Basel Switzerland;

Institute of Medical and Analytical Technologies University of Applied Sciences Northwestern Switzerland Muttenz;

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2. Fatigue behaviour of nickel-titanium superelastic wires and endodontic instruments [J] . Bahia MGA, Gonzalez BM, Buono VTL Fatigue & Fracture of Engineering Materials & Structures . 2006,第7期

机译：镍钛超弹丝和牙髓器械的疲劳行为
3. Fatigue behaviour of NiTi shape memory alloy scaffolds produced by SLM, a unit cell design comparison [J] . Speirs M., Van Hooreweder B., Van Humbeeck J., Journal of the mechanical behavior of biomedical materials . 2017,第期

机译：SLM生产的NITI形状记忆合金支架的疲劳行为，单位细胞设计比较
4. Fatigue behaviour of selective-laser-melted nickel-titanium scaffolds [C] . Therese Bormann, Bert Muller, Waldemar Hoffmann, European Conference on Biomaterials . 2014

机译：选择性激光熔化的镍钛支架的疲劳行为
5. In Situ Diffraction Investigations of Mechanisms that Lead to Path Dependent Mechanical Behaviours of Nickel-Titanium Shape Memory Alloys [D] . Dahal, Jinesh . 2020

机译：原位衍射调查导致镍钛形状记忆合金的路径依赖性机械行为的机制
6. In vitro comparison of cyclic fatigue resistance of TruNatomy in single and double curvature canals compared with different nickel-titanium rotary instruments [O] . Amr M. Elnaghy, Shaymaa E. Elsaka, Ayman O. Mandorah 2020

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7. Rapid prototyped porous nickel-titanium scaffolds as bone substitutes [O] . Hoffmann W, Bormann T, Rossi A, 2014

机译：快速原型多孔镍钛支架作为骨替代品
8. Shape-Memory Resistivity Behavior of Transformation-Fatigue-Cycled Nickel-Titanium Wires Near the Equiatomic Composition [R] . Hsu, C. H., Wechsler, M. S. 1982

机译：转换 - 疲劳循环镍 - 钛线在等原子组成附近的形状记忆电阻率行为

Fatigue behaviour of selective-laser-melted nickel-titanium scaffolds

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