人工唾液中沙瓦多巴植物棒粉对 SS 316L 正畸钢丝的抗腐蚀效率

IF 2.5 Q2 CHEMISTRY, MULTIDISCIPLINARY Results in Chemistry Pub Date : 2024-11-13 DOI:10.1016/j.rechem.2024.101894
H.Mohamed Kasim Sheit , K.S. Mohan , P. Srinivasan , S.Esakki Muthu , A. Dinesh , B. Rajeswari , L. Srimathi Priya , Lalitha Gnanasekaran , Munawar Iqbal
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摘要

通过电化学方法,研究了在有和没有萨尔瓦多柿(Salvadora persica,SP)棒粉的情况下,不锈钢 316L (SS 316L)正畸钢丝在减轻人工唾液腐蚀方面的功效。电位极化评估结果表明,引入 SP 提取物后,SS 316L 的腐蚀电位发生了明显的阴极转变,这表明阳极溶解速率降低了。记录到的线性极化电阻明显增强,与腐蚀电流密度的降低相对应,从而证明了腐蚀的实质性缓解。电化学阻抗光谱法获得的数据证实了这些观察结果,显示阻抗和电荷转移电阻增加,同时双层电容降低,表明 SS 316L/电解质界面的电荷转移受到抑制。开路电位(OCP)指标表明,与对照组相比,含有 SP 的系统呈现出更多的负值,从而加强了 SP 成分的抑制作用。紫外可见光谱和傅立叶变换红外光谱分析证实了 SP 粉末中存在生物活性化合物,浸泡后 SS 316L 表面的光谱带发生了细微变化,表明 SP 成分被吸附。扫描电子显微镜(SEM)和原子力显微镜(AFM)成像显示,与对照样品相比,暴露在经 SP 增强的人工唾液中的 SS 316L 试样的表面降解程度降低。这些发现表明,以极性官能团(如 O、N 和 S)为特征的 SP 成分与 SS 316L 离子接触,从而促进了保护层的形成并增强了耐腐蚀性。这项研究强调了Salvadora persica在延长口腔环境中使用的 SS 316L 正畸装置的耐用性方面的应用前景。
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Anti-corrosive efficiency of salvadora persica plant stick powder on SS 316L orthodontic wire in artificial saliva
The efficacy of stainless steel 316L (SS 316L) orthodontic wire in mitigating corrosion within artificial saliva was scrutinized both in the presence and absence of Salvadora persica (SP) stick powder, employing electrochemical methodologies. Potentiodynamic polarization assessments demonstrated a notable cathodic shift in the corrosion potential of SS 316L upon the introduction of SP extract, which signifies a reduction in anodic dissolution rates. A marked enhancement in linear polarization resistance was recorded, corresponding to a diminished corrosion current density, thereby evidencing substantial corrosion mitigation. Data obtained from electrochemical impedance spectroscopy corroborated these observations, revealing an augmentation in impedance and charge transfer resistance alongside a reduction in double-layer capacitance, indicative of suppressed charge transfer at the SS 316L/electrolyte interface. Open-circuit potential (OCP) metrics demonstrated that the system incorporating SP presented more negative values relative to the control, reinforcing the inhibitory effect exerted by the constituents of SP. UV–Visible and FTIR spectral analyses substantiated the existence of bioactive compounds within SP powder, with minor shifts in spectral bands noted on the SS 316L surface subsequent to immersion, suggesting adsorption of SP constituents. Scanning electron microscopy (SEM) and atomic force microscopy (AFM) imaging of SS 316L specimens exposed to SP-enhanced artificial saliva exhibited diminished surface degradation in comparison to the control samples. These findings imply that constituents of SP, characterized by polar functional groups (e.g., O, N, and S), engage with SS 316L ions, thereby facilitating the formation of a protective layer and augmenting corrosion resistance. This investigation underscores the prospective application of Salvadora persica in prolonging the durability of SS 316L orthodontic devices utilized within an oral milieu.
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来源期刊
Results in Chemistry
Results in Chemistry Chemistry-Chemistry (all)
CiteScore
2.70
自引率
8.70%
发文量
380
审稿时长
56 days
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