YESOL YUN | Marine Technology | Best Researcher Award

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Ms. YESOL YUN | Marine Technology | Best Researcher Award

Master | Korea Maritime and Ocean University | South Korea

Strengths for the Award 🏆

Innovative Research Focus: Ye-Sol Yun’s research on the effects of laser beam overlap rates on aluminum alloy properties and laser decontamination techniques demonstrates a clear focus on advanced material processing and optimization. These studies contribute significantly to the field of maritime and ocean engineering, showcasing innovative approaches to enhance mechanical properties and decontamination processes.

Publications in Reputable Journals: Ye-Sol Yun has published in well-regarded journals, including “Metals” and the “International Journal of Modern Physics B.” This indicates a strong commitment to disseminating research findings in platforms recognized by the scientific community, adding credibility to her work.

Relevance to Industry Needs: The topics addressed in Yun’s research are highly relevant to industrial applications, particularly in maritime and ocean engineering, where material strength and surface treatment are critical. This alignment with industry needs enhances the practical value of her research contributions.

Recent and Current Work: The recency of publications (both in 2024) reflects active and ongoing research efforts, indicating that Yun is at the forefront of her field. This timeliness is an important factor in award considerations, as it demonstrates the continued relevance and impact of her work.

đź“ś Short Bio

Yesol Yun is a dedicated Master’s student at Korea Maritime and Ocean University, specializing in advanced research on the effects of laser technologies in the field of materials science. With a strong academic background and a passion for exploring the intersections of laser applications and metallurgy, Yesol has made significant contributions through research that blends theory and practical insights. Known for her meticulous approach and innovative problem-solving skills, she is rapidly building a reputation in the academic community.

🌟 Profile

Orcid

🎓 Education

Ms. Yesol Yun is currently pursuing her Master’s degree at Korea Maritime and Ocean University, where she focuses on materials science and engineering, particularly in the application of laser technologies to enhance metal properties. Her educational journey has been marked by a commitment to excellence and a drive to push the boundaries of conventional metallurgical techniques.

đź’Ľ Experience

Yesol has been actively involved in research projects that investigate the impact of laser peening and decontamination processes on aluminum alloys. Her work has contributed valuable insights into how laser beam overlap rates can influence the mechanical properties of metals. Through her studies, she has developed a strong foundation in both theoretical and practical aspects of laser-material interactions, positioning her as a promising researcher in her field.

🔬 Research Interest

Yesol Yun’s research interests lie at the intersection of laser technology and material science, with a focus on laser peening and decontamination techniques. She is particularly interested in how these technologies can improve the mechanical properties and surface integrity of metals. Her goal is to advance the understanding of laser applications in industrial settings, aiming to develop more efficient and sustainable metal treatment processes.

🏆 Awards

Yesol Yun has been recognized for her academic achievements and contributions to research in materials science. While she is still early in her career, her innovative research projects have garnered attention, and she has been nominated for several academic awards in recognition of her potential and dedication to her field.

đź“š Publications

  • “Effect of Laser Beam Overlap Rate on Mechanical Properties of Aluminum Alloy Arc Welding with Laser Peening”
    Published in Metals on September 6, 2024. This study explores the influence of laser beam overlap rates on the mechanical properties of aluminum alloys, highlighting the potential benefits of laser peening in welding applications.
  • “A Study on the Effect of Laser Decontamination by Beam Overlap Rate of Crud Formed on Aluminum Alloy”
    Published in International Journal of Modern Physics B on May 17, 2024. This paper examines the effects of laser decontamination on aluminum alloys, specifically focusing on how varying the beam overlap rate impacts the removal of contaminants.

đź“ť Conclusion

Yesol Yun is an emerging researcher in the field of materials science, with a particular emphasis on laser technologies. Through her studies at Korea Maritime and Ocean University, she has contributed to the understanding of how laser applications can enhance the properties of metals, demonstrating both her technical acumen and her potential to drive future innovations in the field. As she continues to develop her research and expertise, Yesol is poised to make significant impacts in both academic and industrial settings.

Amal Hentati | Marine Engineering | Best Researcher Award

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Mrs. Amal Hentati | Marine Engineering | Best Researcher Award

Assistant professor | ENIG | Tunisia

Strengths for the Award

Amal Hentati is a well-established researcher in the field of Civil Engineering, particularly in areas such as spatial variability, carbon footprint analysis, Building Information Modeling (BIM), and life cycle analysis (LCA). She has a strong academic background, having obtained a PhD in Civil Engineering from ENIT, and she has been actively involved in academia as a Maître Assistante at the École Nationale d’Ingénieurs de Gabès since September 2020.

Her research contributions are significant, with publications in reputable journals such as Computers and Geotechnics and Georisk. Her work on probabilistic methods, offshore foundations, and the integration of BIM with sustainability practices showcases her ability to tackle complex, interdisciplinary problems. Moreover, her recent certifications in LCA and REVIT further demonstrate her commitment to continuous professional development.

đź“ś Short Bio

Amal Hentati, born on March 9, 1989, in Sfax, Tunisia, is a highly skilled civil engineer and academic. She currently serves as a MaĂ®tre Assistante in Civil Engineering at the École Nationale d’IngĂ©nieurs de Gabès, UniversitĂ© de Gabès, since September 2020. With a strong background in teaching and research, she is dedicated to advancing the field of civil engineering through her work on spatial variability, carbon balance, and life cycle analysis.

Profile

Scopus

🎓 Education

Amal Hentati holds a PhD in Civil Engineering from ENIT, awarded in 2019. She also earned a Master’s degree in Research from ENIT in 2013 and a Diploma in Civil Engineering from ENIT in 2012. Her academic journey has equipped her with a deep understanding of civil engineering concepts and practices.

đź’Ľ Experience

Amal Hentati has a diverse teaching background, having worked as a vacataire teacher at the Institut SupĂ©rieur des Études Technologiques de Sfax (ISET Sfax) and the École Nationale d’IngĂ©nieurs de Gabès (ENIG). She has also served as a contractual teacher at ENIG. Her professional experience spans over several years, during which she has contributed significantly to the academic and professional development of her students.

🔬 Research Interest

Her research interests include spatial variability, carbon balance, Building Information Modeling (BIM), and life cycle analysis. Amal’s work focuses on advancing methodologies in geotechnics, foundations, and probabilistic approaches, contributing to a more sustainable and efficient civil engineering industry.

🏆 Awards

Amal Hentati has been recognized for her contributions to the field of civil engineering, although specific awards were not mentioned in the provided information. Her dedication to teaching and research has earned her a respected place in academia.

đź“š Publications

Hentati, A., Selmi, M., Kormi, T., Bel Hadj Ali, N. (2018), Probabilistic HM failure envelopes of strip foundations on spatially variable soil, Computers and Geotechnics, 102:66–78.

Published Article
Prompt: This publication presents a probabilistic approach to analyzing failure envelopes of strip foundations in variable soil conditions. Cited by 21 articles.

Hentati, A., Selmi, M., Kormi, T., Ali, N.B.H. (2018), Random finite element method for bearing capacity assessment of a shallow foundation under varied uniaxial loadings, International Journal of Reliability and Safety, 12(3):237–260.

Published Article
Prompt: This study explores a random finite element method for assessing the bearing capacity of shallow foundations. Cited by 0 articles.

Selmi, M., Kormi, T., Hentati, A., Bel Hadj Ali, N. (2019), Capacity assessment of offshore skirted foundations under HM combined loading using RFEM, Computers and Geotechnics, 114:103148.

Published Article
Prompt: This research evaluates the capacity of offshore skirted foundations under combined loading using RFEM. Cited by 27 articles.

Kormi, T., Hentati, A., Selmi, M., Ali, N.B.H. (2020), Reliability-based assessment of foundations under HM combined loading using Random Finite Element Method, Georisk. Assessment and Management of Risk for Engineered Systems and Geohazards, 14(4):293-307.

Published Article
Prompt: This paper discusses reliability-based assessments of foundations under combined loading using a probabilistic approach. Cited by 6 articles.

Guefrech, K., Hentati, A., Baroth, J., Fauqueux, F. (2022), Analyse de cycle de vie (ACV) d’un ouvrage modélisé par une maquette numérique BIM: analyse comparative analytique et développement d’un couplage ACV-BIM, Béton et Economie Circulaire BECC’22.
Prompt: The article presents a life cycle analysis of a BIM-modeled structure, offering a comparative analytical study.

Ben Ayed, M., Hentati, A. (2023), Towards a resumption of sustainable building culture: BIM and BEM for better design decision, IACCM Conference 2023 | DISAQ – UniversitĂ  Parthenope.
Prompt: This paper focuses on sustainable building practices through the integration of BIM and BEM for better design decisions.

Amal Hentati, Mbarka Selmi, Tarek Kormi (2024), Undrained HM bearing capacity of hybrid foundations in spatially variable soils, Computers and Geotechnics, Volume 173.

Conclusion

Amal Hentati is a strong candidate for the “Best Researcher Award” due to her solid research background, expertise in civil engineering, and commitment to advancing sustainable practices in the field. With a focus on further increasing her research impact and exploring emerging areas, she has the potential to achieve even greater recognition in her field. Her contributions to both academia and industry make her a deserving candidate for the award.