Ms. Tingting LI π is a Ph.D. candidate in ferrous metallurgy at Shanghai University, specializing in Ca oxide metallurgy π§ͺ. Her research focuses on microstructural evolution and mechanical properties of shipbuilding steel plates π’. She has contributed to 6 SCI/Scopus-indexed publications π, 3 patents π, and 5 industry consultancy projects π§. Proficient in EBSD, TEM, and computational thermodynamics π§¬, she aims to enhance the toughness of marine-grade steel. With a citation index of 33 π, Tingting is emerging as a promising materials researcher with both academic depth and industrial relevance π, making her a strong candidate for global recognition π
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Ms Tingting LI, Shanghai University, China
Profile
SCOPUS
π Education
Ms. Tingting LI is currently pursuing her Ph.D. in Ferrous Metallurgy at Shanghai University ποΈ, where she is deeply engaged in research on Ca oxide metallurgy π¬. Her academic work emphasizes establishing quantitative relationships between alloying elements, second-phase particle evolution, microstructural development, and mechanical performance in shipbuilding steel plates π’. Her studies combine theory with advanced experimental tools such as EBSD and TEM π§ͺ, along with computational modeling βοΈ. This strong academic foundation enables her to tackle complex challenges in metallurgy, positioning her as a promising scholar in the field of materials science and engineering π§ π.
Professional Background ποΈ
Tingting LI π is a dedicated Ph.D. candidate in ferrous metallurgy at Shanghai University ποΈ, focusing on Ca oxide metallurgy. Her work aims to develop quantitative relationships between alloying element concentrations βοΈ, second-phase particle evolution π, microstructural behavior π§¬, and mechanical properties π§ in advanced shipbuilding steel plates π’. Tingting integrates experimental techniques like EBSD and TEM π¬ with computational tools including thermodynamic modeling and first-principle simulations π». Her research is deeply rooted in practical application, driving improvements in steel performance for marine environments π. Through academic rigor and hands-on industry collaboration π€, she is shaping innovations in materials science.
Research Focus π¬
Tingting LI π¬ is deeply engaged in advancing Ca oxide metallurgy βοΈ, particularly focusing on quantifying the impact of alloying elements on heat-affected zone (HAZ) toughness π‘οΈ in shipbuilding steels π’. Her research integrates microstructural analysis 𧬠and thermodynamic modeling π to explore second-phase particle behavior and its influence on mechanical performance π§±. By combining high-resolution techniques like EBSD and TEM π with computational simulations π», she aims to enhance the strength and durability of steel in extreme marine conditions π. Her work bridges fundamental metallurgical theory with practical engineering applications π§, driving innovation in advanced materials development.
Technical Expertise π§
Tingting LI βοΈ excels in combining advanced characterization techniques such as EBSD and TEM π¬ with computational thermodynamics π and first-principle calculations π§ to uncover the intricate interplay between alloying elements, oxide particle evolution, and phase transformation mechanisms π. Her innovative research directly addresses pressing challenges in marine engineering π’ by designing high-strength steels 𧱠with superior heat-affected zone (HAZ) toughness retention π‘οΈ. This significantly reduces material failure risks β οΈ in extreme operational environments π. Her holistic approach integrates experimental and computational tools π§π», contributing to the development of next-generation materials for demanding structural applications.
Publication π
Deterioration mechanism of impact toughness in the coarse-grained heat-affected zone of Ca-treated shipbuilding steel plate with high-Cr content π§
Authors: Tingting Li π§βπ¬, Jian Yang π¨βπ¬, Yinhui Zhang π©βπ¬, Pengfei Hu π¨βπ¬, Longyun Xu π¨βπ¬
Journal: Journal of Alloys and Compounds π, 2025