基于在 Ca-EDTA 溶液中进行水热处理时间的不同，对 MAO 涂层镁合金的耐腐蚀性能和生物活性增强作用。

Corrosion resistance and bioactivity enhancement of MAO coated Mg alloy depending on the time of hydrothermal treatment in Ca-EDTA solution.

机构信息

Deptartment of Dental Biomaterials and Institute of Biodegradable material, Institute of Oral Bioscience and BK21 plus project, School of Dentistry, Chonbuk National University, 567, Baekje-daero, Deokjin-gu, Jeonju-si, Jeollabuk-do, 54896, Republic of Korea.

Division of Biotechnology, College of Environmental & Bioresource Sciences, Chonbuk National University, 79, Gobong-ro, Iksan-si, Jeollabuk-do, 54596, Republic of Korea.

出版信息

Sci Rep. 2017 Aug 22;7(1):9061. doi: 10.1038/s41598-017-08242-0.

DOI:10.1038/s41598-017-08242-0

PMID:28831082

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5567222/

Abstract

In this study, a two-step surface treatment was developed to restrain the rapid primary degradation of a biodegradable Mg alloy and to improve their biocompatibility. Micro arc oxidation (MAO) coating was performed in alkaline electrolytes such as 1.0 M NaOH with 0.1 M glycerol and 0.1 M NaPO. Hydrothermal treatment was performed in 0.1 M Ca-EDTA (CHCaNNaO) and 0.5 M NaOH solution at 90 °C for different times (6, 12, 24, and 48 h). The film morphology and chemical properties were evaluated by XRD and FE-SEM. The electrochemical and corrosion behaviors were examined in the simulated body fluid, and cytotoxicity was assessed using MC3T3-E1 cells. After MAO coating, an oxide layer containing [Formula: see text] formed on the surface. During the hydrothermal treatment in Ca-EDTA solution, calcium phosphate and Mg(OH) were produced via a reaction between [Formula: see text] on the surface and Ca in solution. The layer with ceramics and oxides was grown on the surface with increasing hydrothermal treatment time, and improved the surface corrosion resistance. The 24 h hydrothermal-treated group showed the lowest immersion corrosion rate and high cell viability. Therefore, this treatment was the most favorable surface modification for improving the initial corrosion resistance and bioactivity of the biodegradable Mg alloy.

摘要

在这项研究中，开发了一种两步表面处理方法来抑制可生物降解 Mg 合金的快速初始降解，并提高其生物相容性。微弧氧化 (MAO) 涂层是在碱性电解质中进行的，例如 1.0M NaOH 中含有 0.1M 甘油和 0.1M NaPO。水热处理是在 90°C 的 0.1M Ca-EDTA（CHCaNNaO）和 0.5M NaOH 溶液中进行不同时间（6、12、24 和 48 小时）。通过 XRD 和 FE-SEM 评估了薄膜的形貌和化学性质。通过在模拟体液中检查电化学和腐蚀行为，并使用 MC3T3-E1 细胞评估细胞毒性。在 MAO 涂层之后，表面形成了含有[化学式：见正文]的氧化物层。在 Ca-EDTA 溶液中的水热处理过程中，通过表面上的[化学式：见正文]与溶液中的 Ca 之间的反应产生了磷酸钙和 Mg(OH)。随着水热处理时间的增加，具有陶瓷和氧化物的层在表面上生长，提高了表面耐腐蚀性。24 小时水热处理组显示出最低的浸泡腐蚀速率和高细胞活力。因此，这种处理是提高可生物降解 Mg 合金初始耐腐蚀性和生物活性的最有利的表面改性方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2bf0/5567222/dac55e04563b/41598_2017_8242_Fig1_HTML.jpg

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基于在 Ca-EDTA 溶液中进行水热处理时间的不同，对 MAO 涂层镁合金的耐腐蚀性能和生物活性增强作用。

Corrosion resistance and bioactivity enhancement of MAO coated Mg alloy depending on the time of hydrothermal treatment in Ca-EDTA solution.

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