教育及工作经历
时间 |
学校/单位 |
专业方向/研究领域 |
学位/职位 |
2024年3月-至今 |
美高梅mgm最新登录入口 |
材料学 |
副教授 |
2020年9月-2024年3月 |
美高梅mgm最新登录入口 |
材料学 |
助理教授 |
2012年9月-2020年3月 |
美高梅mgm最新登录入口航天航空学院 |
力学 |
硕博连读 |
2017年2月-2018年5月 |
美国哥伦比亚大学 |
力学 |
联合培养博士 |
教师简介
王永静博士于2020年9月加入澳门mgm4858美高梅表面工程研究室,担任副教授。博士毕业于美高梅mgm最新登录入口航天航空学院,曾在美国哥伦比亚大学工学院进行博士联合培养。
王永静博士长期致力于高性能多功能涂层/薄膜材料方面的研究工作,在超常规工况下高可靠防护涂层材料方面取得创新成果并在Composite Structures、Journal of Materials Research and Technology、Thin-Walled Structures、Acta Materialia、Energy Storage Materials等国际重要学术期刊发表SCI论文30余篇,申请发明专利10余项,作为课题负责人先后承担国家自然科学基金青年项目、校企合作项目等与涂层材料研究相关的多项科研项目,作为骨干成员参与国家重大研究计划、国家自然科学基金联合基金项目、面上项目、陕西省重点研发等多项纵向科研课题。参与指导学生参加互联网+创新创业大赛并获国赛金奖等奖项8项。
Dr. Yongjing Wang joined the Surface Engineering Laboratory of the School of Materials Science and Technology, Xi 'an Jiaotong University as an assistant professor in September 2020, and now is an associate professor. She received her doctoral degree from the School of Aerospace Engineering of Xi 'an Jiaotong University and completed her joint doctoral training in the School of Engineering of Columbia University.
Dr. Yongjing Wang engages in the research of high-performance of multi-functional coating/thin film materials, and achieved innovative results in the field of highly reliable protective coating materials under ultra-normal working conditions. She has published more than 30 SCI papers in important international academic journals such as the Composite Structures, Journal of Materials Research and Technology, Thin-Walled Structures, Acta Materialia, Energy Storage Materials and so on, and applied for more than 10 invention patents. Furthermore, as the project leader, she has undertaken a number of scientific research projects related to coating materials research, such as National Natural Science Foundation youth project and school-enterprise cooperation projects. As the key member, she has participated in a number of government sponsored research projects such as major national science and technology projects, National Natural Science Foundation joint fund projects, general program, and key R&D projects in Shaanxi Province. In addition, she participated in guiding students to participate in the Internet + Innovation and Entrepreneurship competition and won 8 awards such as gold medal in the National competition.
代表成果
科研项目
1. 国家自然科学基金青年项目,2022.01-2024.12,30万元,主持,在研
2. PVD-SiC涂层制备工艺研究,2022.03-2022.09,83.90万元,主持,结题
3. 涂层锆合金包壳涂层开裂行为与机理研究,2022.11-2023.11,96.80万元,主持,在研
4. 涂层锆合金包壳中试生产装备开发技术研究,2024.05-2026.01,2388.16万元,参与,在研
5. 国家自然科学基金联合基金项目,2022.01-2025.12,260万元,参与,在研
6. 铬涂层锆合金管材高温力学性能及失效机理研究,陕西省重点项目,2023.01-2024.12,50万元,参与,在研
7. 国防科技工业局核能开发项目,2023.01-2025.12,199万元,参与,在研
学术成果
1. Wang, Y. J., Zhang, Z. J., Xue, X. W., et al. "Axial and lateral crushing performance of plate-lattice filled square sandwich tubes." Composite Structures,274 (2021): 114404.
2. Wang, Y. J., Li, S. G., Liu, Y., et al. "Improving fatigue performance of Cr-coated zirconium alloy cladding by ultrasonic shot-peening proces." Journal of Materials Research and Technology,27 (2023): 6047-6057.
3. Wang, Y. J., Zhang, Z. J., Xue, X. M., et al. "Experimental investigation on enhanced mechanical and damping performance of corrugated structure with metal rubber." Thin-Walled Structures,154 (2020): 106816.
4. Wang, Y. J., Qian, D., Chen, Y. Q. et al. "Effect of plate lattice-filling on the compressive mechanical property of 3D-printed square honeycombs."Journal of Sandwich Structures & Materials,24.3 (2022): 1580-1596.
5. Wang, Y. J., Li, S. G., et al. "Low-cycle fatigue behavior of zirconium fuel cladding with Cr coatings deposited by High-power Impulse Magnetron Sputtering." Materials Letters,353 (2023): 135269.
6. Wang, Y. J., Zhang, Z. J., & Feng, R. X. "Effect of plate-lattice structural material filling on crashworthiness performance of square tube." Materials Letters,342 (2023): 134324.
7. Wang, Y. J., Zhang, Z. J., Xue, et al. "Free vibration analysis of composite sandwich panels with hierarchical honeycomb sandwich core." Thin-Walled Structures,145 (2019): 106425.
8. Xiong, S., Xu, X., Jiao, X., Wang, Y., et al. (2023). Mechanical Failure of Solid‐State Electrolyte Rooted in Synergy of Interfacial and Internal Defects. Advanced Energy Materials, 13(14), 2203614.
9. Jiao, X., Wang, Y., Xiong, S., et al. (2024). Electro-chemo-mechanical failure of solid-state electrolyte caused from intergranular or transgranular damage propagation in polycrystalline aggregates. Acta Materialia, 265, 119607.
10. Jiao, X., Wang, Y., Kapitanova, O. O., et al. (2023). Morphology evolution of electrodeposited lithium on metal substrates. Energy Storage Materials, 61, 102916.