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醫(yī)用可降解鎂合金腐蝕疲勞行為研究進展
作者:
作者單位:

1.華北理工大學;2.北京科技大學

作者簡介:

通訊作者:

中圖分類號:

TG146.2+2;TG178

基金項目:

國家重點研發(fā)計劃(2016YFB0700303);河北省自然科學基金(E2020209153);河北省省屬高校基本科研業(yè)務費(JYG2019001,JQN2019010);新金屬材料國家重點實驗室開放基金(2020-Z12);唐山市科技計劃項目(20130205b)


Research Progress on Corrosion Fatigue Behavior of Novel Biomedical Degradable Magnesium-Based Alloys
Author:
Affiliation:

1.North China University of Science and Technology;2.University of Science and Technology Beijing

Fund Project:

Supported by The National Key Research and Development Program of China (2016YFB0700303); Natural science foundation of Hebei province (E20209153); Fundamental Research Funds for the Provincial Universities of Hebei (JYG2019001, JQN2019010); State Key Lab of Advanced Metals and Materials (2020-Z12); Science and Technology Project of Tangshan (20130205b)

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    摘要:

    鎂合金由于良好的生物安全性和力學承載性,同時兼具可控的體內外降解速率,被譽為新一代的“革命性醫(yī)用金屬材料”。然而,在濕潤氣氛條件下鎂合金的耐蝕性能較差,尤其是在復雜載荷和腐蝕疲勞作用下(經(jīng)歷動態(tài)交變載荷及腐蝕介質協(xié)同作用)使得鎂合金的力學固定/支撐功能急劇驟減,并導致植入提前失敗。因此,本文從醫(yī)用鎂合金疲勞失效的施加載荷、頻率與腐蝕因素的耦合機理出發(fā),針對醫(yī)用鎂合金體內外腐蝕疲勞壽命、斷口微區(qū)特征和腐蝕速率間定量關系,闡述交變載荷下腐蝕疲勞失效微觀機制。同時,本文深入解析了疲勞微裂紋萌生/擴展機理,全面總結了提升鎂合金腐蝕疲勞性能的舉措,以及展望了生物醫(yī)用可降解鎂合金的應用前景和發(fā)展方向。

    Abstract:

    Magnesium-based alloys were known as the new generation ‘revolutionary medical metal materials’, due to its better biological safety, excellent mechanical bearing effect and controllable degradation rate in vivo and in vitro. However, the corrosion resistance of magnesium alloy is very poor under the humid atmosphere. Particularly in a complicated human physiological environment, implant materials need to undergo the synergistic effects of dynamic alternating load and corrosive medium. Thus, it can cause the mechanical fixation and mechanical support roles of the Mg-based alloys decreased dramatically, resulting in the premature implantation failure. As a result, the coupling mechanism of applied load, frequency and corrosion factors affecting fatigue failure of medical magnesium alloys was investigated. In view of the quantitative relationships between corrosion fatigue life, fracture micro-zone characteristics and corrosion rate of biomedical Mg alloys in vivo and in vitro, the microscopic mechanism of corrosion fatigue failure under cyclic loading was described. Meantime, the initiation and propagation mechanism of fatigue micro-cracks were thoroughly analyzed; the improvement methods of corrosion fatigue properties of Mg alloys were comprehensively summarized; and the application prospect and development direction of biodegradable magnesium alloys for biomedical use were forecasted.

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引用本文

陳連生,鄭亞琪,李靜媛,張源,劉蕓,田亞強,鄭小平.醫(yī)用可降解鎂合金腐蝕疲勞行為研究進展[J].稀有金屬材料與工程,2021,50(9):3375~3387.[Liansheng Chen, Yaqi Zheng, Jingyuan Li, Yuan Zhang, Yun Liu, Yaqiang Tian, Xiaoping Zheng. Research Progress on Corrosion Fatigue Behavior of Novel Biomedical Degradable Magnesium-Based Alloys[J]. Rare Metal Materials and Engineering,2021,50(9):3375~3387.]
DOI:10.12442/j. issn.1002-185X.20200716

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  • 收稿日期:2020-09-16
  • 最后修改日期:2020-10-27
  • 錄用日期:2020-11-25
  • 在線發(fā)布日期: 2021-09-27
  • 出版日期: 2021-09-24