Dr. Jingwei Tian - Civil engineering - Best Researcher Award

Harbin Institute of technology - China

Author Profile 

GOOGLE SCHOLAR 

🎓 Early academic pursuits

Jingwei tian embarked on his academic journey in the field of civil engineering, developing a strong foundation in engineering mechanics. from september 2017 to september 2019, he pursued a master's degree in structural engineering at the school of civil engineering, harbin institute of technology (hit), under the guidance of prof. jing zhong. his master's dissertation focused on the "preparation and corrosion resistance of graphene oxide composite coatings," highlighting his early interest in advanced materials and protective technologies. he continued his academic progression by obtaining a doctoral degree in engineering mechanics from the same institution (sep. 2019 – dec. 2023), where he worked under prof. guijun xian on the topic: "preparation and performance study of anti-wear and corrosion-resistant epoxy resin matrix composites." his strong foundation in mechanics and materials plays an indirect but pivotal role in power electronics, especially in material insulation and thermal management systems.

🧑‍🏫 Professional endeavors

Following the successful defense of his doctoral thesis, jingwei tian commenced his career as a lecturer and postdoctoral researcher at the school of civil engineering, hit, in january 2024, under the mentorship of prof. huigang xiao. he actively contributes to multiple national and institutional-level research projects, showcasing a balanced mix of academic and applied research. his role as both a researcher and an educator allows him to mentor the next generation while pushing the boundaries in advanced composites, which are increasingly finding cross-applications in fields like aerospace and power electronics infrastructure.

🔬 Contributions and research focus

Jingwei tian’s research focuses on high-performance composite materials, including epoxy resin matrix composites, carbon fiber reinforced polymers (cfrps), and graphene oxide coatings. his work addresses critical challenges such as anti-wear performance, corrosion resistance, and long-term degradation in harsh environments. his projects span national importance, including Civil engineering studies funded by the national natural science foundation of china and the national key research and development programs. currently, he is leading a project on the damage self-healing of carbon fiber composites, which holds immense potential for applications in smart infrastructure and power electronics casing technologies where structural integrity is vital.

🌍 Impact and influence

The research contributions of jingwei tian play a significant role in enhancing the durability, safety, and sustainability of civil engineering materials. his investigations into corrosion-resistant and self-healing materials impact various industries, from marine engineering to smart composites in power electronics cooling and protection systems. by participating in high-stake national-level research projects, his work influences policy formulation and industrial practices. through collaboration with senior academics and national laboratories, his influence extends across Civil engineering academia and industry alike.

📚 Academic citations and recognitions

While early in his postdoctoral career, jingwei tian’s scholarly output is embedded in some of china’s leading research initiatives. he is a contributing author to projects that have garnered Civil engineering national attention and funding worth millions of rmb. his master's and doctoral theses are widely referenced in materials science discussions, and his involvement in collaborative projects with renowned institutions like sichuan university enhances his research visibility and citation potential.

🔭 Legacy and future contributions

Jingwei tian’s work lays the groundwork for long-lasting contributions in the realm of high-performance civil materials. his current leadership in developing self-healing carbon fiber composites positions him to influence future generations of engineers and materials scientists. he aims to further integrate smart material systems into infrastructure design, ultimately contributing to the broader field of sustainable construction and materials engineering. in the coming years, his interdisciplinary approach may bridge gaps between civil engineering, environmental sustainability, and materials for emerging sectors such as next-gen power electronics.

Notable Publications 

1. Title: Thin nacre-biomimetic coating with super-anticorrosion performance
   Author(s): Y. Zhang, J. Tian, J. Zhong, X. Shi
   Journal: ACS Nano

2. Title: Reciprocating friction and wear performances of nanometer sized‐TiO₂ filled epoxy composites
   Author(s): J. Tian, C. Li, G. Xian
   Journal: Polymer Composites

3. Title: Friction behaviors and wear mechanisms of multi-filler reinforced epoxy composites under dry and wet conditions: Effects of loads, sliding speeds, temperatures, water lubrication
   Author(s): J. Tian, X. Qi, C. Li, G. Xian
   Journal: Tribology International

4. Title: Mussel-inspired fabrication of an environment-friendly and self-adhesive superhydrophobic polydopamine coating with excellent mechanical durability, anti-icing and self-cleaning
   Author(s): J. Tian, X. Qi, C. Li, G. Xian
   Journal: ACS Applied Materials & Interfaces

5. Title: Mechanical properties evaluation of glass fiber reinforced thermoplastic composite plate under combined bending loading and water immersion
   Author(s): G. Xian, P. Zhou, C. Li, S. Dong, H. Du, J. Tian, R. Guo, Z. Peng, Z. Zhang, T. He
   Journal: Construction and Building Materials