李天书

职 称:

所在系所:Myball迈博体育官方网站手机版

个人主页:

E-MAIL:tianshuli@xjtu.edu.cn

专业方向:金属腐蚀与防护

一、研究领域或方向

1.金属钝化及局部腐蚀机理研究

2.高性能耐蚀合金设计(高熵合金、纳米晶合金、亚稳态合金)

 

二、工作经历

2022.9至今 Myball迈博体育官方网站手机版,Myball迈博体育官方网站手机版,教授

2019.12-2022.7 美国俄亥俄州立大学,Fontana腐蚀中心,Research Scientist

2016.11-2019.11 美国俄亥俄州立大学,Fontana腐蚀中心,博士后

2010.9-2016.7 中国科公司金属研究所,保送硕博连读

2006.9-2010.6 中南大学,粉末冶金研究院,学士

 

三、科研项目

1.国家自然科学基金青年项目

2.Myball迈博体育官方网站手机版青年拔尖人才支持计划(A类)

 

四、学术成果介绍

主要从事金属局部腐蚀机理及耐蚀合金理论设计研究,在最具代表性的点蚀研究领域取得了系列成果:(1)建立并验证了“一个观点、两大判据、三个模型”的点蚀生长统一理论,提出了点蚀最大溶解电流密度的新概念,搭建了微观参量(如金属键能)与宏观耐蚀性参数间的理论联系;(2)利用该理论,探索了耐蚀合金的计算设计方法,设计并制备了极端苛刻环境下对点蚀免疫的多主元素合金;(3)基于新理论,从点蚀生长稳定性出发阐述了过饱和间隙固溶体合金的微观耐蚀机理,提出了利用非金属间隙原子编织共价键网络提高合金耐蚀性能的设计思路。

在腐蚀领域重要期刊发表论文30余篇,其中以第一作者发表17篇,包括Corrosion Science 9篇、Journal of Electrochemical Society 5篇、Acta Materialia 1篇、Electrochimica Acta 1篇、Electrochemistry Communications 1篇,合作论文包含Nature Materials等。上述工作被国际腐蚀专家评价为“局部腐蚀领域近几十年最具创新性工作”、“具有极大的理论价值”、“促进了金属腐蚀电化学理论的发展”,并被多家科研媒体及腐蚀综述文章报导。

代表性论文:

1. Tianshu Li* and G.S. Frankel,Repassivation underneath salt film on stainless steel pitsCorrosion Science, 203 (2022) 110353.

2. Tianshu Li*, Szu-Chia Chien, Zhe Ren, Wolfgang Windl, Frank Ernst, G.S. Frankel,Understanding the Efficacy of Concentrated Interstitial Carbon in Enhancing the Pitting Corrosion Resistance of Stainless Steel,Acta Materialia, 221 (2021) 117433.

3. Tianshu Li*, Jun Wu, Xiaolei Guo, Anup M. Panindre, G.S. Frankel,Activation energy of metal dissolution in local pit environments,Corrosion Science, 193 (2021) 109901.

4. Tianshu Li*,D. E. Perea,D. K. Schreiber, Mark G.Wirth,GrahamJ. Orren, G. S. Frankel,Cryo-based structural characterization and growth model of salt film on metal,Corrosion Science, 174 (2020) 108812.

5. Tianshu Li*, Jun Wu, G.S. Frankel,Localized Corrosion: Passive Film Breakdown vs. Pit Growth Stability,Part VI.Pit dissolution kinetics of different alloys and a model for pitting and repassivation potentials,Corrosion Science, 182 (2021) 109277.

6. Tianshu Li*, J.R. Scully, G.S. Frankel,Localized Corrosion: Passive Film Breakdown vs. Pit Growth Stability,Part V. Validation of a new framework for pit growth stability using one-dimensional artificial pit electrodes,Journal of The Electrochemical Society, 166 (2019) C3341-C3354.

7. Tianshu Li*, J.R. Scully, G.S. Frankel,Localized Corrosion: Passive Film Breakdown vs. Pit Growth Stability,Part IV. The role of salt film in pit growth: A Mathematical Framework,Journal of The Electrochemical Society, 166 (2019) C115-C124.

8. Tianshu Li*, J.R. Scully, G.S. Frankel,Localized Corrosion: Passive Film Breakdown vs. Pit Growth Stability,Part III. A unifying set of principal parameters and criteria for pit stabilization and salt film formation,Journal of the Electrochemical Society, 165 (2018) C762-C770.

9. Tianshu Li*, J.R. Scully, G.S. Frankel,Localized Corrosion: Passive Film Breakdown vs. Pit Growth Stability,Part II. A model for critical pitting temperature,Journal of the Electrochemical Society,165 (2018) C484-C491.

10. Tianshu Li,O.J. Swanson, G.S. Frankel, A.Y. Gerard, P. Lu, J.E. Saal, J.R. Scully,Localized corrosion behaivor of a single-phase non-equimolar high entropy alloy,Electrochimica Acta, 306 (2019) 71-84.