成形性
钛合金
材料科学
金属薄板
增量板料成形
钛
有限元法
机械工程
物流
成形工艺
合金
复合材料
结构工程
冶金
工程类
生物
生态学
作者
Sirine Frikha,Laurence Giraud-Moreau,Anas Bouguecha,Mohamed Haddar
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2022-05-10
卷期号:15 (10): 3442-3442
摘要
Advanced manufacturing techniques aimed at implants with high dependability, flexibility, and low manufacturing costs are crucial in meeting the growing demand for high-quality products such as biomedical implants. Incremental sheet forming is a promising flexible manufacturing approach for rapidly prototyping sheet metal components using low-cost tools. Titanium and its alloys are used to shape most biomedical implants because of their superior mechanical qualities, biocompatibility, low weight, and great structural strength. The poor formability of titanium sheets at room temperature, however, limits their widespread use. The goal of this research is to show that the gradual sheet formation of a titanium biomedical implant is possible. The possibility of creative and cost-effective concepts for the manufacture of such complicated shapes with significant wall angles is explored. A numerical simulation based on finite element modeling and a design process tailored for metal forming are used to complete the development. The mean of uniaxial tensile tests with a constant strain rate was used to study the flow behavior of the studied material. To forecast cracks, the obtained flow behavior was modeled using the behavior and failure models.
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