Weiwei Bian | Fretting corrosion for structural material | Best Researcher Award | 13416

Assoc Prof Dr Weiwei Bian | Structural material | Best Researcher Award

Assoc Prof Dr Weiwei Bian , Inner Mongolia University of Science and Technology, China

Dr. Weiwei Bian, PhD, is a researcher and faculty member at the School of Materials Science and Engineering, Inner Mongolia University of Science and Technology. His work focuses on the fretting corrosion behavior of structural materials, especially in nuclear steam generator tubes. With nine first-author publications in high-impact journals and a citation index of 25, Dr. Bian has made significant contributions to understanding the influence of hydrogen and dissolved oxygen in high-temperature, high-pressure environments. Awarded the Outstanding Doctoral Dissertation Prize by the University of Science and Technology Beijing, he continues to lead projects that bridge academic insight with practical applications in nuclear energy systems.

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🎓 Early Academic Pursuits

Dr. Weiwei Bian’s academic foundation was built through rigorous study in the field of materials science and engineering, culminating in a Ph.D. from the prestigious University of Science and Technology Beijing. His early academic work was characterized by a deep interest in material degradation phenomena, particularly within high-stress industrial environments such as those encountered in nuclear power systems. His commitment to excellence during his doctoral studies was formally recognized with the Outstanding Doctoral Dissertation Award, an honor that reflects both the originality and technical merit of his research.

đŸ« Professional Endeavors

Currently, Dr. Bian is a key academic and researcher at the School of Materials Science and Engineering, Inner Mongolia University of Science and Technology. He has become a pivotal figure in the university’s research efforts related to corrosion mechanisms and structural material integrity. Balancing both teaching and research, he plays a central role in training the next generation of engineers and material scientists while pushing forward the boundaries of tribological and corrosion-related research. His research agenda remains closely aligned with critical national and international concerns in nuclear materials safety and performance.

🔬 Contributions and Research Focus

Dr. Bian’s work focuses primarily on fretting corrosion mechanisms, especially in nuclear steam generator tubes made of zirconium alloys. His research stands out for its originality and practical implications. In particular, he has advanced the understanding of tangential and impact fretting corrosion—phenomena that are often overlooked but critical to the structural integrity of materials in dynamic and high-pressure environments.

🏅 Accolades and Recognition

Dr. Bian’s academic excellence has been formally acknowledged through multiple avenues. His Outstanding Doctoral Dissertation Award from the University of Science and Technology Beijing was a milestone in his career. His research publications, several in SCI-indexed journals, have attracted 25 citations, reflecting the growing impact and relevance of his work. Although he has not yet authored books or secured patents, his contributions are recognized in the professional materials science community, particularly for their relevance to nuclear energy safety and reliability.

🌍 Impact and Influence

Dr. Bian’s influence extends beyond academia and into the industrial sphere. His consultancy and collaborative projects reflect his applied knowledge and innovative approach to real-world problems. Among his notable projects are:

  • 🔧 A fretting damage lifetime prediction model for heat transfer tubes under extreme conditions

  • 🧠 Research into intelligent operation and maintenance systems for steam generators

  • 💡 Studies on failure mechanisms and surface strengthening techniques for high-parameter nuclear valve components

These projects are aligned with critical national interests in nuclear energy safety, highlighting Dr. Bian’s role in bridging the gap between theory and application.

🌟 Legacy and Future Contributions

Although still early in his career, Dr. Bian is already laying the groundwork for a significant legacy in materials science. His interdisciplinary focus—combining tribology, materials engineering, and corrosion science—makes his research particularly valuable for the evolving demands of high-performance industrial systems. Future contributions are likely to involve:

  • 📈 Development of data-driven predictive tools for corrosion behavior

  • 🌐 International collaborations to address global energy challenges

  • đŸ§‘â€đŸ« Expanded mentorship roles, cultivating emerging researchers in structural material innovation

📝 Short Summary Paragraph

Dr. Weiwei Bian, Ph.D., is a researcher at Inner Mongolia University of Science and Technology, specializing in the fretting corrosion of nuclear-grade structural materials. With an award-winning academic background and impactful research in material degradation mechanisms, Dr. Bian’s work advances both theoretical understanding and industrial practice in nuclear systems engineering. His contributions hold significant promise for future innovation in material longevity and energy safety.

Publications Top Notes

Fretting corrosion behavior and microstructure evolution of hydrided zirconium alloy under gross slip regime in high temperature high pressure water environment

Contributors: Kang, L.Z.; Lu, Y.H.; Bian, W.W.; Yu, P.J.; Wang, Y.B.; Xin, L.; Han, Y.M.

Journal: Corrosion Science
Year: 2025

Thermal aging effect on elevated temperature deformation mechanisms of 316L stainless steel weld metal by small punch test

Contributors: Fan, Y.; Hu, J.Y.; Bian, W.W.; Hu, Y.; Cui, K.X.

Journal: Materials Science and Engineering:
Year: 2025

Effect of fretting wear regimes on stress corrosion cracking of Alloy 690TT in high-temperature pressurized water

Contributors: Bian, W.W.; Lu, Y.H.; Zhang, X.F.; Han, Y.M.; Wang, F.; Shoji, T.

Journal: Corrosion Science
Year: 2024

JAYAPRAKASH BEHERA | Chemistry | Best Researcher Award | 13370

Mr. JAYAPRAKASH BEHERA | Chemistry | Best Researcher Award 

Mr. JAYAPRAKASH BEHERA, CSIR-IIIM JAMMU, India

Mr. Jayaprakash Behera is a distinguished researcher currently pursuing a Ph.D. at CSIR-IIIM Jammu under AcSIR. With a strong academic background in chemistry and material science, he holds an M.Phil. from VSSUT Burla and an M.Sc. in Organic Chemistry from Galgotias University. He has served in key roles within the CSIR Aroma Mission and has previously contributed to prestigious research projects at IIT Guwahati and IIT Delhi. A recipient of over 30 international and national awards—including the Dr. A.P.J. Abdul Kalam Nation Star Award and the Nelson Mandela International Award—he is also a five-time world record holder. Mr. Behera has authored several scientific articles, developed innovative products, and is an active member of multiple scientific organizations globally.

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đŸŒ± Early Academic Pursuits

Mr. Jayaprakash Behera’s journey into the scientific world began with a solid foundation in chemistry. He completed his B.Sc. in Chemistry from BJB Autonomous College, Bhubaneswar, affiliated with Utkal University in 2013. Driven by a passion for organic and material sciences, he pursued an M.Sc. in Organic Chemistry from the School of Basic and Applied Sciences at Galgotias University, Uttar Pradesh, in 2017. His academic trajectory continued to climb as he earned an M.Phil. in Polymer Chemistry and Material Science from the Department of Chemistry at Veer Surendra Sai University of Technology (VSSUT), Burla in 2020.

Currently, Mr. Behera is advancing his academic journey by pursuing a Ph.D. at CSIR–IIIM Jammu under the AcSIR program, focusing on interdisciplinary research that bridges organic chemistry, materials science, and applied industrial innovation.

đŸ§Ș Professional Endeavors

Mr. Behera’s professional experience is a testament to his dynamic involvement in various cutting-edge research projects. He is currently serving as a Project Associate-I under the prestigious CSIR Aroma Mission Phase-III, a national initiative aimed at promoting aromatic crops and developing value-added products.

Previously, he contributed significantly as a Project Assistant-I during Phase-II of the Aroma Mission (2021–2023), where his work involved developing applications from essential oils and natural extracts. His career also includes a pivotal stint as a Junior Research Fellow (JRF) in a DST-funded project at Malaviya National Institute of Technology (MNIT), Jaipur, from 2017 to 2019.

His research exposure was further enriched by hands-on project work at IIT Guwahati and IIT Delhi, where he worked on minor and major research projects related to chemical synthesis and materials science.

🔬 Contributions and Research Focus

Mr. Behera’s research focuses span a broad spectrum, including organic synthesis, polymer chemistry, material science, and ethnopharmacology. His work emphasizes creating innovative solutions for skin and hair care, developing nanoparticles for seed coating, and designing medicinal soaps for skin ailments.

He has also made notable contributions through international publications, with two articles published in Springer Nature and one in Wiley, underscoring his commitment to advancing global scientific discourse. Furthermore, he has successfully developed three international products and holds a trademark for a medicinal soap, showcasing his entrepreneurial spirit in translating lab research into real-world applications.

🏆 Accolades and Recognition

A true polymath, Mr. Behera is a five-time world record holder, recognized by institutions such as:

  • London Book of World Records

  • USA Book of World Records (twice)

  • Prestigious Book of World Records

  • Orient Book of World Records

His dedication and innovation have earned him over 30 national and international awards, including:

  • Dr. A.P.J. Abdul Kalam Nation Star Award

  • Young Scientist Award (multiple times)

  • Nelson Mandela International Award (2025)

  • Rabindranath Tagore Hall of Fame Award

  • Mother Teresa Social Reformer Award

  • Global Icon Award

  • International Icon Award (2025)

These awards recognize not only his scientific brilliance but also his humanitarian and educational contributions.

🌍 Impact and Influence

Mr. Behera’s work has reached far beyond the lab. His participation in international exhibitions like GLOBAL BIO INDIA 2023 and five national exhibitions has helped showcase indigenous innovations in sustainable chemistry and healthcare.

He holds lifetime memberships in numerous respected scientific bodies such as:

  • Indian Science Congress

  • Society for Ethnopharmacology

  • International Association of Oncology

  • Eudoxia Research University

  • All India Council for Technical Skill Development

  • SRMS Foundation

These affiliations underline his influence in multiple domains—research, policy, education, and community outreach.

🚀 Legacy and Future Contributions

Looking ahead, Mr. Behera is poised to make even greater contributions. His trajectory is clearly aimed at bridging the gap between traditional science and modern technology. Through sustainable product development, community engagement, and international collaboration, he is creating a legacy of scientific excellence paired with social impact.

With his unique blend of academic rigor, innovation, and humanitarian vision, Mr. Jayaprakash Behera is not just shaping the future of scientific research in India—he is influencing global perspectives on integrative and sustainable science. His continued contributions promise to elevate research that improves lives, encourages innovation, and promotes knowledge sharing across borders.

Publication Top Notes

Nano boron nitride laminated poly (ethyl methacrylate)/poly (vinyl alcohol) composite films imprinted with silver nanoparticles as gas barrier and bacteria resistant packaging

Author: J Behera, S Patra, S Nazrul, SK Sharma, D Kumar, MK Verma, AK Katare, …
Journal: Applied Polymer Science
Year: 2024

Bioassay-guided fractionations of Cannabis sativa extract and HPLC-assisted purifications of anti-proliferative active fractions lead to the isolation of 16

Author: Y Nalli, S Bharti, T Amin, R Singh, J Behera, SS Bhayye, YP Bharitkar, …
Journal: Medicinal Chemistry Research
Year: 2024