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Guangyin Yuan
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[1] Nanoscale precipitations in deformed dilute alloying Mg-Zn-Gd alloy Materials and Design, 2020,
[2]Guangyin Yuan. The beneficial potential of magnesium-based scaffolds to promote chondrogenesis through controlled Mg2+ release in eliminating the destructive effect of activated macrophages on chondrocytes Biomaterials Advances, 2022,
[3]Guangyin Yuan,Guangyin Yuan. The beneficial potential of magnesium-based scaffolds to promote chondrogenesis through controlled Mg2+ release in eliminating the destructive effect of activated macrophages on chondrocytes Biomaterials Advances, 2022,
[4] Fatigue and dynamic biodegradation behavior of additively manufactured Mg scaffolds ACTA BIOMATERIALIA, 2021,
[5] Medical Additive Manufacturing: From a Frontier Technology to the Research and Development of Products Engineering, 2020,
[6] Medical Additive Manufacturing: From a Frontier Technology to the Research and Development of Products Engineering, 2020,
[7] Comparative assessment of the biocompatibility and degradation behavior of Zn-3Cu and JDBM alloys used for biliary surgery AMERICAN JOURNAL OF TRANSLATIONAL RESEARCH, 2020,
[8] Incorporating Copper to Biodegradable Magnesium Alloy Vascular Stents via a Cu(II)-Eluting Coating for Synergistic Enhancement in Prolonged Durability and Rapid Re-Endothelialization ADVANCED FUNCTIONAL MATERIALS, 2022,
[9] 锶对挤压态二元锌锶合金显微组织、力学性能及体外降解行为的影响 中国有色金属学报:英文版, 2020,
[10] Fabrication and characterization of biodegradable Zn-Cu-Mn alloy micro-tubes and vascular stents: Microstructure, texture, mechanical properties and corrosion behavior Acta Biomaterialia, 2022,
[11] Effects of dynamic flow rates on degradation deposition behavior of Mg scaffold Journal of Magnesium and Alloys, 2021,
[12] Biodegradable Zn-Cu-Mn alloy with suitable mechanical performance and in vitro degradation behavior as a promising candidate for vascular stents Materials Science and Engineering C, 2022,
[13] Corrigendum to ‘Degradation and osteogenic induction of a SrHPO4-coated Mg–Nd–Zn–Zr alloy intramedullary nail in a rat femoral shaft fracture model’ [Biomaterials 247(2020) 119962] (Biomaterials (2020) 247, (S0142961220302088), (10.1016/j.biomaterials.2020.119962)) Biomaterials, 2022,
[14] Challenges and Solutions for the Additive Manufacturing of Biodegradable Magnesium Implants Engineering, 2020,
[15] 全降解镁合金组织工程支架孔隙特征与性能关系研究 口腔医学, 2021,
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