S. Devaraj – Composite Materials – Best Researcher Award

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S. Devaraj - Composite Materials - Best Researcher Award

INSTITUTE OF AERONAUTICAL ENGINEERING - India

AUTHOR PROFILE

SCOPUS

EXPERT IN COMPOSITE MATERIALS

S. Devaraj specializes in the field of Composite Materials, particularly Metal Matrix Composites (MMCs). His research includes exploring the properties and applications of MMCs to enhance material performance in various engineering applications. This work contributes to advancing the use of composite materials in industries where high strength and durability are crucial.

RESEARCHER IN AERODYNAMICS AND FLIGHT DYNAMICS

With a focus on Aerodynamics and Flight Dynamics, S. Devaraj investigates the forces and dynamics that influence the performance of aircraft and other flying objects. His research in this area aims to optimize flight performance and improve the efficiency of aerodynamic designs.

PIONEER IN MACHINING PERFORMANCE STUDIES

S. Devaraj has conducted significant studies on machining performance, particularly in the context of Al-MMCs. His work, such as the investigation of textured inserts on machining performance using the Taguchi method, provides valuable insights into improving machining processes and tool design.

APPLICATION OF ADVANCED ANALYTICAL METHODS

In his research, S. Devaraj applies advanced analytical methods like the TOPSIS method to predict optimum design parameters for micro hole textured cutting inserts. His contributions to optimizing design parameters enhance the efficiency and accuracy of manufacturing processes.

STUDIES ON MAGNETOHYDRODYNAMIC FLOWS

S. Devaraj has explored the effects of slip and nonlinear thermal radiation on Magnetohydrodynamic (MHD) flow and heat transfer. His studies contribute to understanding fluid dynamics in high-temperature and high-field environments, relevant for applications in aerospace and energy sectors.

CONTRIBUTOR TO REPUTED JOURNALS

S. Devaraj's research is widely published in reputable journals, including Tribology in Industry and the International Journal of Lightweight Materials and Manufacture. His work is recognized for its contribution to advancing knowledge in materials science and engineering.

RESEARCH IN FLUID DYNAMICS AND HEAT TRANSFER

His research also includes studies on unsteady Magnetohydrodynamics and Bingham fluids, focusing on heat transfer and flow dynamics. These studies are essential for applications involving complex fluid behaviors and thermal management in engineering systems.

NOTABLE PUBLICATION

Experimental Investigation of Textured Inserts on Machining Performance of Al-MMC Using Taguchi Method.
Authors: D. Sandiri, R. Malkapuram, S. Balasubramaniyan
Year: 2022
Journal: Tribology in Industry, 44(1), pp. 54–63

Application of TOPSIS Method for Prediction of Optimum Design Parameters of Micro Hole Textured Cutting Inserts in Turning of Al-MMC.
Authors: S. Devaraj, M. Ramakrishna, B. Singaravel
Year: 2021
Journal: International Journal of Vehicle Structures and Systems, 13(4), pp. 471–476

Performance Analysis of Micro Textured Cutting Insert Design Parameters on Machining of Al-MMC in Turning Process.
Authors: S. Devaraj, R. Malkapuram, B. Singaravel
Year: 2021
Journal: International Journal of Lightweight Materials and Manufacture, 4(2), pp. 210–217

Wing Structural Analysis Using Different Fiber Reinforced Composites and Hybrid Composites.
Authors: S. Devaraj, P. Ravi Kumar, D. Anitha, P.K. Dash
Year: 2018
Journal: International Journal of Mechanical and Production Engineering Research and Development, 8(3), pp. 101–110

Studies on Ballistic Impact of the Composite Panels.
Authors: Y.B. Sudhir Sastry, P.R. Budarapu, Y. Krishna, S. Devaraj
Year: 2014
Journal: Theoretical and Applied Fracture Mechanics, 72(1), pp. 2–12

Jihui Xing – Building Structure Material Performance – Best Researcher Award

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Jihui Xing - Building Structure Material Performance - Best Researcher Award

Beijing Jiaotong University - China

AUTHOR PROFILE

SCOPUS

JIHUI XING: LEADING EXPERT IN CIVIL ENGINEERING 🌟

EDUCATION AND ACADEMIC JOURNEY 📚

Jihui Xing is currently a Professor at Beijing Jiaotong University, specializing in Civil Engineering within the School of Civil Engineering. Her academic career spans over two decades, marked by significant contributions to the field. She obtained her Master's degree and subsequently embarked on a path of extensive research and scholarly pursuits.

PROFESSIONAL EXPERIENCE AND CONTRIBUTIONS 🏗️

With an illustrious career, Jihui has held pivotal roles including Assistant Researcher at North Dakota State University and Assistant Research Fellow at Imperial College London. Her research focuses on the performance of large-span space structures, encompassing static and seismic behaviors, as well as design methodologies for components and systems within space lattice structures.

RESEARCH AND DEVELOPMENT IMPACT 🚀

Jihui Xing has led numerous influential research projects, notably as the principal investigator for three National Natural Science Foundation of China projects and major initiatives with the China State Railway Group Corporation. Her work addresses complex multi-hazard coupling effects and micro-damage ontology in steel structures. Jihui has published extensively in renowned journals such as Engineering Structures, Structures, and Journal of Constructional Steel Research, contributing significantly to the advancement of civil engineering knowledge.

INNOVATIONS AND EXTENSION ACTIVITIES 🌐

As a thought leader, Jihui has authored critical industry standards, including the "Technical Standard for High-speed Railway Cross-line Steel Structure Inspection and Appraisal" for the China Steel Structure Association. Her expertise and leadership in structural integrity and performance evaluation continue to shape standards and practices within the field.

FUTURE ENDEAVORS AND MOTIVATIONS 🌱

Driven by a passion for innovation and academic excellence, Jihui Xing remains committed to pushing the boundaries of civil engineering research. Her ongoing dedication to advancing structural design methodologies and enhancing infrastructure resilience underscores her enduring impact on the discipline.

COMMUNITY ENGAGEMENT AND LEADERSHIP 🤝

Beyond her scholarly pursuits, Jihui actively engages in community and academic leadership roles, fostering collaboration and knowledge dissemination across international platforms. Her contributions to education and professional development exemplify her commitment to nurturing the next generation of civil engineers.

AWARDS AND RECOGNITIONS 🏆

Throughout her career, Jihui Xing has garnered recognition for her outstanding contributions to civil engineering research and education, solidifying her status as a leading authority in the field.

VISION FOR THE FUTURE 🌍

Looking ahead, Jihui aims to continue her groundbreaking research, leveraging her expertise to address emerging challenges in civil engineering and contribute to sustainable infrastructure development globally.

NOTABLE PUBLICATION

Fracture properties of corroded steel under monotonic tension load 2024

A new ductile fracture model for Q460C high-strength structural steel under monotonic loading: Experimental and numerical investigation 2023 (2)

Uniaxial failure mechanism and design strength of high-strength welded hollow spherical joint 2022 (12)

Low cycle fracture behavior of steel members with circular hollow section subjected to eccentric load 2021 (03)

Sim Seungwoo – Materials Science and Engineering – Best Researcher Award

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Sim Seungwoo - Materials Science and Engineering - Best Researcher Award

National Institute of Ecology - South Korea

AUTHOR PROFILE

Google Scholar

EARLY ACADEMIC PURSUITS

Sim Seungwoo commenced his academic journey with a focus on interdisciplinary studies, culminating in a Ph.D. candidacy in Biology at Kyung Hee University. His educational background includes an M.S. in Mechanical Engineering and Science from Kyoto University, where he delved into the observation and evaluation of cellular behaviors on micro-patterned surfaces.

PROFESSIONAL ENDEAVORS

Sim Seungwoo's professional trajectory showcases his dedication to bridging the gap between engineering and biological sciences. From research on termite population estimation to the simulation of microbial invasion in avian eggshell membranes, he has demonstrated a versatile skill set and a passion for advancing knowledge in his field.

CONTRIBUTIONS AND RESEARCH FOCUS

Sim Seungwoo's research focus lies at the intersection of biology, engineering, and materials science. His publications and presentations delve into diverse topics such as microbial penetration in fibrous structures, termite behavior analysis, and biomimicry for biodiversity conservation.

IMPACT AND INFLUENCE

Through his research and scholarly activities, Sim Seungwoo has made significant contributions to the field of materials science and engineering. His work has been cited in various publications and has been presented at international conferences, highlighting its relevance and impact on the scientific community.

ACADEMIC CITATIONS

Sim Seungwoo's research findings have been published in reputable journals and presented at prestigious conferences, earning recognition and citations from fellow researchers and scholars. His contributions have enriched the academic discourse and expanded the knowledge base in materials science and engineering.

LEGACY AND FUTURE CONTRIBUTIONS

As a leading figure in materials science and engineering, Sim Seungwoo's legacy is defined by his commitment to innovation, interdisciplinary collaboration, and scientific excellence. His future contributions are poised to further advance our understanding of complex biological and engineering systems, paving the way for transformative solutions to global challenges.

NOTABLE PUBLICATION

Estimating termite population size using spatial statistics for termite tunnel patterns 2022 (1)

Direction selection of termites at a skewed T-shaped tunnel junction 2017 (4)

The complete mitochondrial genome sequence of Populus davidiana Dode 2017 (8)

Using hidden Markov models to characterize termite traveling behavior in tunnels with different curvatures 2015 (18)

TIRTHA RAJ ACHARYA – Materials Science and Engineering – Environmental Impact Reduction Award

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TIRTHA RAJ ACHARYA - Materials Science and Engineering - Environmental Impact Reduction Award

Kwangwoon University - South Korea

EARLY ACADEMIC PURSUITS

TIRTHA RAJ ACHARYA embarked on his academic journey with a Bachelor's degree in Physics from Tribhuvan University, Nepal, followed by a Master's degree in the same field. His early academic pursuits laid a solid foundation for his subsequent research endeavors, particularly in the field of nanoscience and nanotechnology.

PROFESSIONAL ENDEAVORS

As a committed Ph.D. candidate specializing in plasma physics at Kwangwoon University, Seoul, TIRTHA RAJ ACHARYA has engaged in both teaching and research assistance roles. He has supported undergraduate students in laboratory activities and electronics experiments, fostering their understanding of non-thermal plasma applications and fundamental circuit design crucial for plasma generation.

CONTRIBUTIONS AND RESEARCH FOCUS

TIRTHA RAJ ACHARYA's research focus centers on non-thermal plasma physics, with applications spanning environmental remediation, metal nanoparticle synthesis, and biomedical applications. His doctoral thesis on "Plasma-Assisted Environmental Remediation and Metal Nanoparticle Synthesis" underscores his commitment to addressing real-world challenges through innovative plasma-based solutions.

IMPACT AND INFLUENCE

TIRTHA RAJ ACHARYA's contributions to the field of plasma physics have been recognized through various awards and accolades, including Best Student Poster Presentation Awards from prestigious organizations like the Korean Vacuum Society (KVS). His research presentations and publications have helped disseminate knowledge and drive advancements in the field of materials science and engineering.

ACADEMIC CITES

TIRTHA RAJ ACHARYA's research findings have been disseminated through presentations at international conferences and symposiums, contributing to the academic discourse on plasma-assisted environmental remediation, metal nanoparticle synthesis, and plasma-based applications in various domains.

LEGACY AND FUTURE CONTRIBUTIONS

As TIRTHA RAJ ACHARYA completes his Ph.D. program and prepares to embark on the next phase of his career, his legacy in materials science and engineering is poised to grow. Armed with a diverse skill set and a proven track record of scholarly achievement, he is well-positioned to make significant contributions to the field and drive innovation in plasma-based technologies.

NOTABLE PUBLICATION

Non-thermal argon plasma jets of various lengths for selective reactive oxygen and nitrogen species production.  2022 (42)

Md Athar Kazmi – Structural Engineering – Editorial Board Member

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Md Athar Kazmi - Structural Engineering - Editorial Board Member

National Institute of Technology Silchar - India

AUTHOR PROFILE

Research Gate

EARLY ACADEMIC PURSUITS:

Md Athar Kazmi's academic journey laid the foundation for his expertise in civil engineering. Starting from his early academic pursuits, he engaged in diverse projects and activities that shaped his educational trajectory.

PROFESSIONAL ENDEAVORS:

Mr. Kazmi's professional endeavors have been marked by significant roles and responsibilities. From being involved in various projects as a civil engineer to achieving the status of Assistant Professor, his professional journey showcases a commitment to the field of civil engineering.

CONTRIBUTIONS AND RESEARCH FOCUS Structural Engineering:

Athar Kazmi's contributions extend to multiple research areas within civil engineering. His involvement in projects related to concrete properties, durability performance of self-compacting concrete, and the use of waste materials in concrete production highlights a research focus on innovative and sustainable construction materials Structural Engineering.

IMPACT AND INFLUENCE:

Being ratified as an Assistant Professor by Jawaharlal Nehru Technological University Hyderabad in November 2017 signifies Mr. Kazmi's impact and influence in the academic realm. This achievement reflects recognition for his contributions to the field of civil engineering education Structural Engineering.

ACADEMIC CITES:

While specific details about academic citations are not provided, Mr. Kazmi's attendance and participation in international conferences, workshops, and seminars suggest an active engagement with academic communities. This involvement likely contributes to his influence in the academic sphere.

LEGACY AND FUTURE CONTRIBUTIONS:

Md Athar Kazmi's legacy is shaped by his diverse experiences, including training, internships, and participation in significant projects. As an Assistant Professor, his future contributions are expected to further enrich the academic and research landscape in civil engineering Structural Engineering.

WORKSHOP AND SEMINAR ATTENDED:

Participation in workshops and seminars on construction materials, scientific writing, sustainable development, and various other topics showcases Mr. Kazmi's commitment to continuous learning and staying updated on advancements in his field Structural Engineering.

NOTABLE PUBLICATION

Durability performance of self-compacting concrete produced using CO2 as an admixture.  

Vusala Nabi Jafarova-Materials Science and Engineering – Women Researcher Award

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Vusala Nabi Jafarova - Azerbaijan State Oil and Industry University- Azerbaijan

Vusala Nabi Jafarova-Materials Science and Engineering - Women Researcher Award

AUTHOR PROFILE

Scopus
Google Scholar

EARLY ACADEMIC PURSUITS:

Vusala Nabi Jafarova began her academic journey at Baku State University, earning a Bachelor's degree from 1998 to 2002. She continued her pursuit of knowledge with a Master's degree at Baku State University from 2002 to 2004. Her commitment to academic excellence and passion for physics laid the foundation for her future endeavors.

PROFESSIONAL ENDEAVORS:

With an academic background in physics, Vusala Nabi Jafarova has made significant contributions to the field. Her roles include serving as an Associate Professor in Physics at Azerbaijan State Oil and Industry University in Baku, Azerbaijan. In this capacity, she has written scholarly articles, collaborated on research projects, and played a pivotal role in shaping the academic experiences of students. Additionally, her experience as a Postdoctoral Research Fellow at the Institute of Physics of MSE Republic of Azerbaijan showcases her commitment to advancing knowledge in the field.

CONTRIBUTIONS AND RESEARCH FOCUS:

Jafarova's contributions to the field of physics are notable, encompassing scholarly articles, papers, and books. Her work involves directing high-level research, collaborating with students and colleagues, and modernizing syllabi to reflect the latest research and techniques. As a Postdoctoral Research Fellow, she has delivered oral presentations at national and international conferences, published scientific manuscripts, and supervised students in successful research projects. Her focus on theoretical physics, material sciences, and DFT simulations underscores her diverse and impactful contributions.

LEGACY AND FUTURE CONTRIBUTIONS:

The provided information lacks insights into Jafarova's envisioned legacy or future contributions to the field of physics. A more detailed outline of her aspirations, goals, or the lasting impact she aims to achieve would provide a comprehensive understanding of her trajectory.

NOTABLE PUBLICATION

Structural and electronic properties of ZnO: A first-principles density-functional theory study within LDA(GGA) .  2021 (40)
Phonon Spectra of Chain TlSe and TlInSe2: Density Functional Theory Based Study.  2008 (13)
Magnetic Properties of Vacancies and Doped Chromium in a ZnO Crystal. 2018 (
Electronic structure and effective masses of TlInSe2 under pressure.  2017 (6)
Debye temperatures and Grueneisen parameters of chain TlSe and TlInSe2.  2009 (6)