邮箱:yufanding@scu.edu.cn
教育背景
2018 – 2023 都灵理工大学(意大利) 材料科学与技术 博士;埃武拉大学(葡萄牙) 地球与空间科学 博士
▪ 研究课题:比较等离子蚀刻与激光烧蚀在清洗石基古建筑物表面的环境腐蚀与微生物定植及其造成的化学改性层的表现,并研究等离子沉积应用于石材保护的可行性。项目包括对巴塔利亚修道院建筑石灰岩的溯源,生物侵蚀所涉及的微生物群落的定性,修道院表面橘色覆盖膜的表征,等离子蚀刻对于石材表面微生物繁殖的抑制作用,等离子沉积薄膜对于石材抵抗环境腐蚀的效果,比较不同辐照种类激光的清洗效果 等多个研究主题。
2012 – 2014 伊利诺伊大学香槟分校(美国) 材料科学与工程 科学硕士
2008 – 2012 浙江大学 材料科学与工程 工程学士
工作经历
2019 - 2022欧洲Hercules实验室 欧盟考古材料研究员
▪ 获玛丽居里基金会资助 (European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No. 766311), 为ED-ARCHMAT一号项目研究员,并担任该项目学生代表
▪ 研究内容为石质文化遗产建筑的新型修复保护技术
2015 – 2018 重庆市科学技术研究院 新材料中心 产品研发工程师;重庆市科学技术委员会 国际合作处 主任科员
▪ 研发粉末冶金产品,主要从事碳化钨-钴硬质合金以及碳氮化钛刀具的研发,生产,质量检测
▪参与组织多项国际合作项目
个人技能
▪ 语言:中文(母语);英文(IELTS 7.5);意大利语(CILS A2);葡萄牙语 (A2)
▪ 专业技能:独立操作多种应用于考古材料学的分析检测仪器:扫描电子显微镜,红外光谱,X射线衍射,X射线荧光,质谱,气象色谱,拉曼光谱,热重分析,金相显微镜,岩相切片等。
▪ 材料制备加工及表面处理技术:化学/物理/等离子气相沉积,溶胶凝胶法,增材制造(3D打印),压制成型,粉末注塑成型,浇筑成型,数控机床,电火花切割,喷砂,低温等离子蚀刻,飞秒/微秒激光烧蚀。
▪ 软件:AutoCAD、Sketchup建模,3D打印G-code编程,OriginLab数据分析与处理,以及SEM,XRD,XRF,FTIR,TGA等多种检测方法相关的分析软件。
论文与专利
▪ Ding, Y., Yang, Z., Shu, L., Bai, B., Zhang, L., Li, H., & Lv, H. (2026). Unveiling the Deity: The Painted Decoration of a 9th‐Century Tang Dynasty Daoist Statue at Heming Mountain Grottoes, Sichuan. Archaeometry.
▪ Ding, Y., Grassini, S., Angelini, E., & Schiavon, N. (2024). Plasma enhanced chemical vapor deposition (PECVD) of SiOx thin films on Portuguese limestone: An experimental study. Journal of Cultural Heritage, 70, 281-292.
▪ Ding, Y., Caldeira, A. T., Salvador, C., Grassini, S., Angelini, E., & Schiavon, N. The inhibition of biodegradation on building limestone by plasma etching. Acta IMEKO, 10(3).
▪ Ding, Y., Redol, P., Angelini, E., Mirão, J., & Schiavon, N. (2021). Surface orange patinas on the limestone of the Batalha Monastery (Portugal): characterization and decay patterns. Environmental Science and Pollution Research, 1-11.
▪ Ding, Y., Salvador, C. S. C., Caldeira, A. T., Angelini, E., & Schiavon, N. (2021). Biodegradation and microbial contamination of limestone surfaces: an experimental study from Batalha Monastery, Portugal. Corrosion and Materials Degradation, 2(1), 31-45.
▪ Ding, Y., Mirao, J., Redol, P., Dias, L., Moita, P., Angelini, E., ... & Schiavon, N. (2021). Provenance study of the limestone used in construction and restoration of the Batalha Monastery (Portugal). Acta IMEKO, 10(1), 122-128.
▪ THE EVOLUTION OF NOVEL ASEISMIC STRUCTURE DESIGN: METAMATERIALS by Yufan Ding. Costa, M. J., & Salgado, R. (2020). Online Workshop On Earth And Space Sciences-Atmospheric Physics And Climate Proceedings Book 2020. Universidade de Évora. ISBN: 978-989-98836-3-5
▪ Ding, Y., Mirao, J., Redol, P., Dias, L., Moita, P., Angellini, E., ... & Schiavon, N. (2019). A combined petrographic and geochemical metrological approach to assess the provenance of the building limestone used in the Batalha Monastery (Portugal). BATTISTI, V., & GALLO, 2019.
▪ Ding, Y., Redol, P., Angelini, E., Mirão, J., & Schiavon, N. (2020). Mineralogical and chemical characterization of surface orange layers on the limestone of the Monastery of Batalha, Central Portugal. In 2020 IMEKO TC-4 International Conference on Metrology for Archaeology and Cultural Heritage (Vol. 19, pp. 101-105). International Measurement Confederation.
▪ Zhu, W. B., Jin, Q., Jiang, A. M., & Ding, Y. F. (2017, July). Microstructure and Properties of Rolled Magnesium Alloy Thick Plate at Different Positions. In Materials Science Forum (Vol. 898, pp. 168-171). Trans Tech Publications Ltd.
▪ Liu, Y., Zhou, H., Ding, Y., Gao, M., & Pan, H. (2011). LOW-TEMPERATURE HYDROGEN DESORPTION FROM LiBH4–TiF4 COMPOSITE. Functional Materials Letters, 4(04), 395-399.
▪ Liang, C., Liu, Y., Fu, H., Ding, Y., Gao, M., & Pan, H. (2011). Li–Mg–N–H-based combination systems for hydrogen storage. Journal of Alloys and Compounds, 509(30), 7844-7853.
▪ 丁羽帆;于明政;黄媛媛;CN201610986600.9 一种TiCN基覆盖TiAlN涂层的金属陶瓷刀具及其制备方法
▪ 姜爱民;李权;朱维波;杨荣杰;周永贵;丁羽帆;CN201711280975.4 一种非对称多孔结构氧化铝陶瓷膜的制造方法
学术会议
▪ “An Inspection of Pigments Used in the Tang Dynasty Daoist Statue "Lord of Longevity and Protection of Life" at Heming Mountain, Jiange, Sichuan” - 2024石窟寺保护国际论坛
▪ “From Portugal to China: Archaeological and Conservation Studies of the Batalha Monastery and Sichuan Grottoes” - VI Международный симпозиум «Музеефикация памятников наскального искусства»
▪ “Innovative Conservation Techniques for Bio-deteriorated and Soiled Ornamental stone in Urban Areas: Laser versus Plasma Vapour Cleaning”- 2022 BACH Tech Week
▪ “石灰石表面的生物降解和微生物污染-葡萄牙巴塔利亚修道院的实验性研究案例 - 2021中葡遗产研究论坛
▪ “A review of the Earthquake Early Warning Strategies”- 2021 Earth and Space Sciences Seminar, University of Evora
Workshop 2021▪ “Mineralogical and chemical characterization of surface orange layers on the limestone of the Monastery of Batalha, Central Portugal”– 2020 MetroArchaeo
▪ “A combined petrographic and geochemical metrological approach to assess the provenance of the building limestone used in the Batalha Monastery (Portugal)”– 2019 MetroArchaeo
▪ “超细晶碳化钨硬质合金PCB钻头”– 2017年中国创新创业大赛
近期项目
▪ 2024教育部人文社会科学研究一般项目 – 负责人,在研
▪ 2023国家资助博士后研究人员计划C档
荣誉与奖项
▪ 埃武拉大学杰出博士毕业论文(Approved with High Distinction)
▪ 学术期刊封面 Corros. Mater. Degrad., Volume 2, Issue 1, March 2021
▪ 2020 MetraoArchaeo Best e-Poster Presentation
▪ 2014 浙江大学优秀毕业论文奖
▪ 中级工程师
