Lynda Benbahouche | Materials Engineering | Best Researcher Award

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Prof Dr. Lynda Benbahouche | Materials Engineering | Best Researcher Award

Prof Dr. Lynda Benbahouche, Faculty of Technology, University Setif1, Algeria

S. Boucetta and Ly. Benbahouche are renowned researchers in the field of materials science. Their latest work, published in the Journal of Materials Science: Materials in Engineering (2025), explores the MgCu4Sn intermetallic compound’s structural, electronic, elastic, mechanical, and thermodynamic properties using first-principle calculations. They have made significant contributions to the study of magnesium alloys, focusing on their potential applications in industries like automotive, aerospace, and biomedical fields. Their research utilizes advanced computational methods, contributing valuable insights to the understanding of material properties at the atomic level.

Profile 👤

Orcid

Education 🎓

S. Boucetta and Ly. Benbahouche hold advanced degrees in materials science and engineering, with extensive training in computational methods such as density functional theory (DFT) and material modeling tools like CASTEP. Their educational journey has equipped them with expertise in investigating the properties of various alloys, with a focus on magnesium-based intermetallics.

Experience 💼

Boucetta and Benbahouche have both held significant academic positions and have contributed to the advancement of materials science through their research. They have extensive experience in applying theoretical methods to solve complex engineering challenges. Their work on the MgCu4Sn compound is one such example, where they used first-principle calculations to predict material properties that have practical applications in various industries.

Research Interests 🔬

Their research interests lie in the theoretical exploration of material properties, particularly focusing on the structural, electronic, and mechanical aspects of metal alloys. Boucetta and Benbahouche are especially interested in using computational methods like DFT to predict and optimize properties that can be applied to new engineering materials, especially magnesium-based alloys with applications in the automotive, aerospace, and biomedical sectors.

Awards 🏆

Though their current research is ongoing, Boucetta and Benbahouche’s contributions to materials science have been widely recognized within the academic community. Their innovative work on MgCu4Sn has already sparked interest from several prominent researchers and industry professionals.

Publication Top Notes 📚

Theoretical exploration of structural, electronic, elastic, mechanical, and thermodynamic properties of MgCu4Sn intermetallic compound for engineering applications: first-principle calculations

Computational Investigation of Structural, Electronic and Optical Properties of Ternary Chalcogenide TLGaQ2 Monoclinic Compounds: a First Principle Study

Le Huang | construction materials | Best Researcher Award

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Dr. Le Huang – construction materials – Best Researcher Award

Wuhan University  | China

Author Profile 

Early Academic Pursuits 🎓

He Associate Professor of Structural Engineering at Wuhan University, embarked on his academic journey with a strong foundation in civil engineering. He completed his Bachelor’s degree (BEng) in Civil Engineering at Wuhan University in 2012. Driven by a passion for structural engineering, he pursued a Ph.D. in the same field at Wuhan University, where he was mentored by Prof. Lihua Xu. His doctoral research, completed in 2017, laid the groundwork for his future contributions to structural engineering, particularly in the realm of innovative concrete materials.

 Professional Endeavors 💼

After earning his Ph.D., Dr. Huang continued his academic pursuits as a Postdoctoral Fellow at The University of Hong Kong from 2018 to 2021. Under the guidance of Assistant Professor Hailong Ye, he expanded his research horizons, delving into advanced topics in structural engineering. This postdoctoral experience not only honed his research skills but also allowed him to collaborate with leading experts in the field, thereby broadening his academic network and exposure.

Contributions and Research Focus on Low-carbon high performance construction materials📚

His research interests are centered on the constitutive relations of low-carbon high-performance concrete materials and structural nonlinear analysis. His work is pivotal in advancing the application of innovative materials to improve structural performance. He has made significant contributions in areas such as geopolymer and alkali-activated concrete, which are critical for sustainable construction practices.

Representative Research Projects

  1. One-Dimensional Stochastic Damage Model – Principal Investigator
    • Sponsor: National Natural Science Foundation of China
    • Focus: Investigating the bond-slip relation of steel rebar embedded in green ultra-high performance concrete.
  2. Bond Failure Mechanism – Principal Investigator
    • Sponsor: Natural Science Foundation of Hubei Province
    • Focus: Exploring the failure mechanisms of steel rebar in green ultra-high performance concrete.
  3. Stochastic Interfacial Damage Evolution – Principal Investigator
    • Sponsor: Guangdong Basic and Applied Basic Research Foundation
    • Focus: Analyzing interfacial damage in steel rebar embedded in green ultra-high performance concrete.
  4. Mechanical Performance and Design Theory – Major Participant
    • Sponsor: Key Project of National Natural Science Foundation of China
    • Focus: Studying ultra-high performance concrete filled steel tubes under complex actions.
  5. Functionalized Geopolymer Concrete – Major Participant
    • Sponsor: Research Grants Council of Hong Kong
    • Focus: Enhancing sustainability and durability in concrete infrastructure against microbial corrosion.

Selected Publications

He has an impressive portfolio of publications, with notable contributions including:

  1. Development of Low-Carbon Ultra-High Performance Concrete – Journal of Building Engineering, 2024.
  2. Tensile Fatigue Behaviors of Ultra-High Performance Concrete – Cement and Concrete Composites, 2023.
  3. Compressive Fatigue Behaviors of Ultra-High Performance Concrete – Cement and Concrete Composites, 2022.
  4. Elastoplastic Damage Constitutive Model – International Journal of Damage Mechanics, 2022.
  5. Mechanical Degradation of Alkali-Activated Concrete – Cement and Concrete Composites, 2021.

 Accolades and Recognition 🏆

Throughout his career, He has received numerous accolades, reflecting his contributions to structural engineering. His research projects have been funded by prestigious organizations such as the National Natural Science Foundation of China and the Research Grants Council of Hong Kong. These recognitions underscore his role as a leading researcher in his field.

 Impact and Influence 🌍

His work has had a profound impact on the field of structural engineering, particularly in the development of sustainable and high-performance concrete materials. His research on the bond-slip relationship of steel reinforcement and the mechanical behavior of innovative concrete materials has influenced both academic research and practical applications in construction.

 Legacy and Future Contributions 🔮

 continues to push the boundaries of structural engineering research. His ongoing projects and collaborations aim to further enhance the sustainability and performance of concrete materials. As an associate professor at Wuhan University, he is dedicated to mentoring the next generation of engineers and researchers, ensuring that his legacy of innovation and excellence endures.

Citations

Citations        1454

h-index            20

i10-index         31

Notable Publications