Role of Niobium on the Passivation Mechanisms of TiHfZrNb High-Entropy Alloys in Hanks' Simulated Body Fluid.

IF 5 3区 医学 Q1 ENGINEERING, BIOMEDICAL
Ayoub Tanji, Xuesong Fan, Ridwan Sakidja, Peter K Liaw, Hendra Hermawan
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Abstract

A family of TiHfZrNb high-entropy alloys has been considered novel biomaterials for high-performance, small-sized implants. The present work evaluates the role of niobium on passivation kinetics and electrochemical characteristics of passive film on TiHfZrNb alloys formed in Hanks' simulated body fluid by analyzing electrochemical data with three analytical models. Results confirm that higher niobium content in the alloys reinforces the compactness of the passive film by favoring the dominance of film formation and thickening mechanism over the dissolution mechanism. Higher niobium content enhances the passivation kinetics to rapidly form the first layer, and total surface coverage reinforces the capacitive-resistant behavior of the film by enrichment with niobium oxides and reduces the point defect density and their mobility across the film, lowering pitting initiation susceptibility. With the high resistance to dissolution and rapid repassivation ability in the aggressive Hanks' simulated body fluid, the TiHfZrNb alloys confirm their great potential as new materials for biomedical implants and warrant further biocompatibility testing.

铌对汉克斯模拟体液中 TiHfZrNb 高熵合金钝化机制的作用
TiHfZrNb 高熵合金系列一直被认为是用于高性能、小尺寸植入体的新型生物材料。本研究通过使用三种分析模型分析电化学数据,评估了铌对在汉克斯模拟体液中形成的 TiHfZrNb 合金被动膜的钝化动力学和电化学特性的作用。结果证实,合金中的铌含量越高,钝态薄膜的致密性就越好,因为成膜和增厚机制比溶解机制更重要。铌含量越高,钝化动力学就越强,从而能快速形成第一层膜;通过富集铌氧化物和降低点缺陷密度及其在膜上的移动性,降低点蚀引发的敏感性,从而增强了薄膜的耐电容性。TiHfZrNb 合金在侵蚀性强的汉克斯模拟体液中具有很强的抗溶解能力和快速再钝化能力,证实了其作为生物医学植入体新材料的巨大潜力,值得进一步进行生物相容性测试。
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来源期刊
Journal of Functional Biomaterials
Journal of Functional Biomaterials Engineering-Biomedical Engineering
CiteScore
4.60
自引率
4.20%
发文量
226
审稿时长
11 weeks
期刊介绍: Journal of Functional Biomaterials (JFB, ISSN 2079-4983) is an international and interdisciplinary scientific journal that publishes regular research papers (articles), reviews and short communications about applications of materials for biomedical use. JFB covers subjects from chemistry, pharmacy, biology, physics over to engineering. The journal focuses on the preparation, performance and use of functional biomaterials in biomedical devices and their behaviour in physiological environments. Our aim is to encourage scientists to publish their results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Several topical special issues will be published. Scope: adhesion, adsorption, biocompatibility, biohybrid materials, bio-inert materials, biomaterials, biomedical devices, biomimetic materials, bone repair, cardiovascular devices, ceramics, composite materials, dental implants, dental materials, drug delivery systems, functional biopolymers, glasses, hyper branched polymers, molecularly imprinted polymers (MIPs), nanomedicine, nanoparticles, nanotechnology, natural materials, self-assembly smart materials, stimuli responsive materials, surface modification, tissue devices, tissue engineering, tissue-derived materials, urological devices.
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