1. 镁合金表面谷氨酸、丙氨酸、天冬氨酸诱导Ca–P涂层耐蚀性能比较

于晓彤，蔡磊，陈浩，薄林，刘成宝，崔蓝月，曾荣昌

2023,52(4):210-222

YU Xiao-tong, CAI Lei, CHEN Hao, BO Lin, LIU Cheng-bao, CUI Lan-yue, ZENG Rong-chang. Comparison of Corrosion Resistance of Glutamic Acid, Alanine and Aspartic Acid-induced Ca-P Coatings on Magnesium Alloy.Surface Technology, 2023, 52(4): 210-222.

Ca-P_Ala（a-b）、Ca-P_Glu（c-d）和Ca-P_Asp（e-f）涂层的形成机理 

Formation mechanisms of Ca-P_Ala(a-b), Ca-P_Glu(c-d), and Ca-P_Asp(e-f) coatings

2. 生物医用金属表面水滑石涂层的研究进展 (F5000 论文)

李峰，殷正正，张芬，邹玉红，崔蓝月，曾荣昌

2021,50(2):1-12

LI Feng,YIN Zheng-zheng,ZHANG Fen,ZOU Yu-hong,CUI Lan-yue,ZENG Rong-chang. Research Advances of Layered Double Hydroxides Coatings on Biomedical Metals. Surface Technology, 2021, 50(2): 1-12.

3.医用镁合金表面肝素/蒙脱石涂层耐蚀性研究

田景睿，李慧，邹玉红，曾荣昌

2021,50(2):66-73

TIAN Jing-rui,LI Hui,ZOU Yu-hong,ZENG Rong-chang.Corrosion Resistance of Heparin/ Montmorillonite Coating on Biomedical Magnesium Alloy.Surface Technology, 2021, 50(2): 66-73.

4.镁合金表面自愈合涂层进展

丁自友,崔蓝月,曾荣昌

2019,48(3):1-9

DING Zi-you, CUI Lan-yue, ZENG Rong-chang. Recent Development of Self-healing Coating on Magnesium Alloys: A Review. Surface Technology, 2019, 48(3): 1-9.

5.镁合金表面层层组装PSS/PAH膜诱导钙磷涂层

崔蓝月,吴思思,徐丽粉,曾荣昌,李硕琦,张芬

2017,46(3):34-39

CUI Lan-yue, WU Si-si, XU Li-fen, ZENG Rong-chang, LI Shuo-qi, ZHANG Fen. Induction Effect of Layer-by-Layer Assembled PAH/PSS Multilayers to Construct Ca-P Coating on Magnesium Alloy. Surface Technology, 2017, 46(3): 34-39.

    有效地提高镁合金的耐蚀性能，对镁合金作为医用材料具有重要意义。利用浸泡法在AZ31镁合金基体表面层层组装制备聚苯乙烯磺酸钠（PSS）、聚丙烯胺盐酸盐（PAH）多层膜，并将获得的样品采用水热法在Ca(NO)₃、NaH₂PO₄、Na₂CO₃溶液中诱导钙磷涂层（羟基磷灰石）的形成。该涂层可以有效地提高镁合金的耐蚀性能，其成因则主要归功于组装的两种聚电解质的类生物矿化作用。这种诱导所得钙磷膜层对镁合金在生物医用领域的应用提供了新的思路。